From cf1c54f8bef8b2d954ab9a03c301a02e0cb2d22a Mon Sep 17 00:00:00 2001
From: github-actions <github-actions@github.com>
Date: Mon, 8 Jul 2024 21:56:36 +0000
Subject: [PATCH] Update documentation

---
 .../user_guide_1_binning_fake_data_13_0.png   | Bin 119713 -> 114922 bytes
 .../user_guide_1_binning_fake_data_8_0.png    | Bin 265466 -> 258458 bytes
 sed/latest/_modules/index.html                |   8 +-
 sed/latest/_modules/sed/binning/binning.html  |  91 +++---
 .../_modules/sed/binning/numba_bin.html       |  40 ++-
 sed/latest/_modules/sed/binning/utils.html    |  42 +--
 sed/latest/_modules/sed/calibrator/delay.html |  93 +++---
 .../_modules/sed/calibrator/energy.html       | 253 ++++++++-------
 .../_modules/sed/calibrator/momentum.html     | 230 +++++++------
 sed/latest/_modules/sed/core/config.html      |  38 ++-
 sed/latest/_modules/sed/core/dfops.html       | 101 +++---
 sed/latest/_modules/sed/core/metadata.html    |  59 +++-
 sed/latest/_modules/sed/core/processor.html   | 289 ++++++++---------
 sed/latest/_modules/sed/dataset/dataset.html  |   8 +-
 sed/latest/_modules/sed/diagnostics.html      |  17 +-
 sed/latest/_modules/sed/io/hdf5.html          |  18 +-
 sed/latest/_modules/sed/io/nexus.html         |  24 +-
 sed/latest/_modules/sed/io/tiff.html          |  27 +-
 .../_modules/sed/loader/base/loader.html      |  57 ++--
 .../_modules/sed/loader/flash/loader.html     |  91 +++---
 .../_modules/sed/loader/flash/metadata.html   |  37 ++-
 .../_modules/sed/loader/generic/loader.html   |  47 ++-
 .../_modules/sed/loader/loader_interface.html |  15 +-
 .../_modules/sed/loader/mirrorutil.html       |  23 +-
 .../_modules/sed/loader/mpes/loader.html      |  94 +++---
 .../_modules/sed/loader/sxp/loader.html       |  93 +++---
 sed/latest/_modules/sed/loader/utils.html     |  32 +-
 sed/latest/_static/documentation_options.js   |   2 +-
 sed/latest/genindex.html                      |  10 +-
 sed/latest/index.html                         |   8 +-
 sed/latest/misc/contributing.html             |   8 +-
 sed/latest/misc/contribution.html             |   8 +-
 sed/latest/misc/maintain.html                 |   8 +-
 sed/latest/objects.inv                        | Bin 8133 -> 8138 bytes
 sed/latest/py-modindex.html                   |   8 +-
 sed/latest/search.html                        |   8 +-
 sed/latest/searchindex.js                     |   2 +-
 sed/latest/sed/api.html                       |   8 +-
 sed/latest/sed/binning.html                   |  60 ++--
 sed/latest/sed/calibrator.html                | 263 +++++++--------
 sed/latest/sed/config.html                    |  24 +-
 sed/latest/sed/core.html                      | 160 +++++-----
 sed/latest/sed/dataset.html                   |  13 +-
 sed/latest/sed/dfops.html                     |  60 ++--
 sed/latest/sed/diagnostic.html                |  10 +-
 sed/latest/sed/io.html                        |  24 +-
 sed/latest/sed/loader.html                    | 210 ++++++------
 sed/latest/sed/metadata.html                  |  14 +-
 .../user_guide/1_binning_fake_data.html       |  80 ++---
 .../user_guide/1_binning_fake_data.ipynb      | 302 +++++++++---------
 sed/latest/user_guide/config.html             |  56 ++--
 sed/latest/user_guide/index.html              |   8 +-
 sed/latest/user_guide/installation.html       |   8 +-
 sed/latest/workflows/index.html               |   8 +-
 54 files changed, 1608 insertions(+), 1589 deletions(-)

diff --git a/sed/latest/_images/user_guide_1_binning_fake_data_13_0.png b/sed/latest/_images/user_guide_1_binning_fake_data_13_0.png
index 7204597e1731929d84ae016327960436d795fbf7..15436cbbe8f7b94bab5eae70b1f66ae7df5da777 100644
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diff --git a/sed/latest/_modules/index.html b/sed/latest/_modules/index.html
index e77ce59..c614414 100644
--- a/sed/latest/_modules/index.html
+++ b/sed/latest/_modules/index.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>Overview: module code &#8212; SED 0.1.10a6 documentation</title>
+    <title>Overview: module code &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/_modules/sed/binning/binning.html b/sed/latest/_modules/sed/binning/binning.html
index 7e2cd42..e7024a0 100644
--- a/sed/latest/_modules/sed/binning/binning.html
+++ b/sed/latest/_modules/sed/binning/binning.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.binning.binning &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.binning.binning &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -447,14 +447,13 @@
                   
   <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains the binning functions of the sed.binning module</span>
-
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">gc</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">functools</span> <span class="kn">import</span> <span class="n">reduce</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span>
@@ -476,33 +475,27 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="bin_partition">
 <a class="viewcode-back" href="../../../sed/binning.html#sed.binning.bin_partition">[docs]</a>
 <span class="k">def</span> <span class="nf">bin_partition</span><span class="p">(</span>
-    <span class="n">part</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
-    <span class="n">bins</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span>
-        <span class="nb">int</span><span class="p">,</span>
-        <span class="nb">dict</span><span class="p">,</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
-    <span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
+    <span class="n">part</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
+    <span class="n">bins</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
     <span class="n">axes</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">hist_mode</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;numba&quot;</span><span class="p">,</span>
-    <span class="n">jitter</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">list</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">jitter</span><span class="p">:</span> <span class="nb">list</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">return_edges</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">skip_test</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="nb">list</span><span class="p">]]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="nb">list</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Compute the n-dimensional histogram of a single dataframe partition.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        part (Union[dask.dataframe.DataFrame, pd.DataFrame]): dataframe on which</span>
+<span class="sd">        part (dask.dataframe.DataFrame | pd.DataFrame): dataframe on which</span>
 <span class="sd">            to perform the histogram. Usually a partition of a dask DataFrame.</span>
-<span class="sd">        bins (int, dict, Sequence[int], Sequence[np.ndarray], Sequence[tuple], optional):</span>
+<span class="sd">        bins (int | dict | Sequence[int] | Sequence[np.ndarray] | Sequence[tuple], optional):</span>
 <span class="sd">            Definition of the bins. Can  be any of the following cases:</span>
 
 <span class="sd">                - an integer describing the number of bins for all dimensions. This</span>
 <span class="sd">                  requires &quot;ranges&quot; to be defined as well.</span>
 <span class="sd">                - A sequence containing one entry of the following types for each</span>
-<span class="sd">                  dimension:</span>
+<span class="sd">                  dimenstion:</span>
 
 <span class="sd">                    - an integer describing the number of bins. This requires &quot;ranges&quot;</span>
 <span class="sd">                      to be defined as well.</span>
@@ -520,7 +513,7 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">            the order of the dimensions in the resulting array. Only not required if</span>
 <span class="sd">            bins are provided as dictionary containing the axis names.</span>
 <span class="sd">            Defaults to None.</span>
-<span class="sd">        ranges (Sequence[Tuple[float, float]], optional): Sequence of tuples containing</span>
+<span class="sd">        ranges (Sequence[tuple[float, float]], optional): Sequence of tuples containing</span>
 <span class="sd">            the start and end point of the binning range. Required if bins given as</span>
 <span class="sd">            int or Sequence[int]. Defaults to None.</span>
 <span class="sd">        hist_mode (str, optional): Histogram calculation method.</span>
@@ -529,18 +522,18 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">                - &quot;numba&quot; use a numba powered similar method.</span>
 
 <span class="sd">            Defaults to &quot;numba&quot;.</span>
-<span class="sd">        jitter (Union[list, dict], optional): a list of the axes on which to apply</span>
+<span class="sd">        jitter (list | dict, optional): a list of the axes on which to apply</span>
 <span class="sd">            jittering. To specify the jitter amplitude or method (normal or uniform</span>
 <span class="sd">            noise) a dictionary can be passed. This should look like</span>
 <span class="sd">            jitter={&#39;axis&#39;:{&#39;amplitude&#39;:0.5,&#39;mode&#39;:&#39;uniform&#39;}}.</span>
-<span class="sd">            This example also shows the default behavior, in case None is</span>
+<span class="sd">            This example also shows the default behaviour, in case None is</span>
 <span class="sd">            passed in the dictionary, or jitter is a list of strings.</span>
 <span class="sd">            Warning: this is not the most performing approach. Applying jitter</span>
 <span class="sd">            on the dataframe before calling the binning is much faster.</span>
 <span class="sd">            Defaults to None.</span>
 <span class="sd">        return_edges (bool, optional): If True, returns a list of D arrays</span>
 <span class="sd">            describing the bin edges for each dimension, similar to the</span>
-<span class="sd">            behavior of ``np.histogramdd``. Defaults to False.</span>
+<span class="sd">            behaviour of ``np.histogramdd``. Defaults to False.</span>
 <span class="sd">        skip_test (bool, optional): Turns off input check and data transformation.</span>
 <span class="sd">            Defaults to False as it is intended for internal use only.</span>
 <span class="sd">            Warning: setting this True might make error tracking difficult.</span>
@@ -552,8 +545,8 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">            present in the dataframe</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[np.ndarray, Tuple[np.ndarray, list]]: 2-element tuple returned only when</span>
-<span class="sd">        returnEdges is True. Otherwise only hist is returned.</span>
+<span class="sd">        np.ndarray | tuple[np.ndarray: 2-element tuple returned only when</span>
+<span class="sd">        return_edges is True. Otherwise only hist is returned.</span>
 
 <span class="sd">        - **hist**: The result of the n-dimensional binning</span>
 <span class="sd">        - **edges**: A list of D arrays describing the bin edges for each dimension.</span>
@@ -572,19 +565,19 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
             <span class="k">raise</span> <span class="ne">TypeError</span><span class="p">(</span>
                 <span class="s2">&quot;axes needs to be of type &#39;List[str]&#39; if tests are skipped!&quot;</span><span class="p">,</span>
             <span class="p">)</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]],</span> <span class="n">bins</span><span class="p">)</span>
-        <span class="n">axes</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">axes</span><span class="p">)</span>
-        <span class="n">ranges</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]],</span> <span class="n">ranges</span><span class="p">)</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">Union</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]],</span> <span class="n">bins</span><span class="p">)</span>
+        <span class="n">axes</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">axes</span><span class="p">)</span>
+        <span class="n">ranges</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]],</span> <span class="n">ranges</span><span class="p">)</span>
 
     <span class="c1"># convert bin centers to bin edges:</span>
     <span class="k">if</span> <span class="nb">all</span><span class="p">(</span><span class="nb">isinstance</span><span class="p">(</span><span class="n">x</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">)</span> <span class="k">for</span> <span class="n">x</span> <span class="ow">in</span> <span class="n">bins</span><span class="p">):</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
         <span class="k">for</span> <span class="n">i</span><span class="p">,</span> <span class="n">bin_centers</span> <span class="ow">in</span> <span class="nb">enumerate</span><span class="p">(</span><span class="n">bins</span><span class="p">):</span>
             <span class="n">bins</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">=</span> <span class="n">bin_centers_to_bin_edges</span><span class="p">(</span><span class="n">bin_centers</span><span class="p">)</span>
     <span class="k">else</span><span class="p">:</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
         <span class="c1"># shift ranges by half a bin size to align the bin centers to the given ranges,</span>
-        <span class="c1"># as the histogram functions interpret the ranges as limits for the edges.</span>
+        <span class="c1"># as the histogram functions interprete the ranges as limits for the edges.</span>
         <span class="k">for</span> <span class="n">i</span><span class="p">,</span> <span class="n">nbins</span> <span class="ow">in</span> <span class="nb">enumerate</span><span class="p">(</span><span class="n">bins</span><span class="p">):</span>
             <span class="n">halfbinsize</span> <span class="o">=</span> <span class="p">(</span><span class="n">ranges</span><span class="p">[</span><span class="n">i</span><span class="p">][</span><span class="mi">1</span><span class="p">]</span> <span class="o">-</span> <span class="n">ranges</span><span class="p">[</span><span class="n">i</span><span class="p">][</span><span class="mi">0</span><span class="p">])</span> <span class="o">/</span> <span class="p">(</span><span class="n">nbins</span><span class="p">)</span> <span class="o">/</span> <span class="mi">2</span>
             <span class="n">ranges</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span>
@@ -656,18 +649,12 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/binning.html#sed.binning.bin_dataframe">[docs]</a>
 <span class="k">def</span> <span class="nf">bin_dataframe</span><span class="p">(</span>
     <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
-    <span class="n">bins</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span>
-        <span class="nb">int</span><span class="p">,</span>
-        <span class="nb">dict</span><span class="p">,</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
-    <span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
+    <span class="n">bins</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
     <span class="n">axes</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">hist_mode</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;numba&quot;</span><span class="p">,</span>
     <span class="n">mode</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;fast&quot;</span><span class="p">,</span>
-    <span class="n">jitter</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">list</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">jitter</span><span class="p">:</span> <span class="nb">list</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">pbar</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
     <span class="n">n_cores</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="n">N_CPU</span> <span class="o">-</span> <span class="mi">1</span><span class="p">,</span>
     <span class="n">threads_per_worker</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">4</span><span class="p">,</span>
@@ -681,13 +668,13 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">    Args:</span>
 <span class="sd">        df (dask.dataframe.DataFrame): a dask.DataFrame on which to perform the</span>
 <span class="sd">            histogram.</span>
-<span class="sd">            bins (int, dict, Sequence[int], Sequence[np.ndarray], Sequence[tuple], optional):</span>
+<span class="sd">        bins (int | dict | Sequence[int] | Sequence[np.ndarray] | Sequence[tuple], optional):</span>
 <span class="sd">            Definition of the bins. Can be any of the following cases:</span>
 
 <span class="sd">                - an integer describing the number of bins for all dimensions. This</span>
 <span class="sd">                  requires &quot;ranges&quot; to be defined as well.</span>
 <span class="sd">                - A sequence containing one entry of the following types for each</span>
-<span class="sd">                  dimension:</span>
+<span class="sd">                  dimenstion:</span>
 
 <span class="sd">                    - an integer describing the number of bins. This requires &quot;ranges&quot;</span>
 <span class="sd">                      to be defined as well.</span>
@@ -705,7 +692,7 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">            the order of the dimensions in the resulting array. Only not required if</span>
 <span class="sd">            bins are provided as dictionary containing the axis names.</span>
 <span class="sd">            Defaults to None.</span>
-<span class="sd">        ranges (Sequence[Tuple[float, float]], optional): Sequence of tuples containing</span>
+<span class="sd">        ranges (Sequence[tuple[float, float]], optional): Sequence of tuples containing</span>
 <span class="sd">            the start and end point of the binning range. Required if bins given as</span>
 <span class="sd">            int or Sequence[int]. Defaults to None.</span>
 <span class="sd">        hist_mode (str, optional): Histogram calculation method.</span>
@@ -722,11 +709,11 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 <span class="sd">                - &#39;legacy&#39;: Single-core recombination of partition results.</span>
 
 <span class="sd">            Defaults to &quot;fast&quot;.</span>
-<span class="sd">        jitter (Union[list, dict], optional): a list of the axes on which to apply</span>
+<span class="sd">        jitter (list | dict, optional): a list of the axes on which to apply</span>
 <span class="sd">            jittering. To specify the jitter amplitude or method (normal or uniform</span>
 <span class="sd">            noise) a dictionary can be passed. This should look like</span>
 <span class="sd">            jitter={&#39;axis&#39;:{&#39;amplitude&#39;:0.5,&#39;mode&#39;:&#39;uniform&#39;}}.</span>
-<span class="sd">            This example also shows the default behavior, in case None is</span>
+<span class="sd">            This example also shows the default behaviour, in case None is</span>
 <span class="sd">            passed in the dictionary, or jitter is a list of strings.</span>
 <span class="sd">            Warning: this is not the most performing approach. applying jitter</span>
 <span class="sd">            on the dataframe before calling the binning is much faster.</span>
@@ -757,14 +744,14 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
     <span class="c1"># create the coordinate axes for the xarray output</span>
     <span class="c1"># if provided as array, they are interpreted as bin centers</span>
     <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">bins</span><span class="p">[</span><span class="mi">0</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">):</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
         <span class="n">coords</span> <span class="o">=</span> <span class="nb">dict</span><span class="p">(</span><span class="nb">zip</span><span class="p">(</span><span class="n">axes</span><span class="p">,</span> <span class="n">bins</span><span class="p">))</span>
     <span class="k">elif</span> <span class="n">ranges</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
         <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span>
             <span class="s2">&quot;bins is not an array and range is none. this shouldn&#39;t happen.&quot;</span><span class="p">,</span>
         <span class="p">)</span>
     <span class="k">else</span><span class="p">:</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">bins</span><span class="p">)</span>
         <span class="n">coords</span> <span class="o">=</span> <span class="p">{</span>
             <span class="n">ax</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">linspace</span><span class="p">(</span><span class="n">r</span><span class="p">[</span><span class="mi">0</span><span class="p">],</span> <span class="n">r</span><span class="p">[</span><span class="mi">1</span><span class="p">],</span> <span class="n">n</span><span class="p">,</span> <span class="n">endpoint</span><span class="o">=</span><span class="kc">False</span><span class="p">)</span> <span class="k">for</span> <span class="n">ax</span><span class="p">,</span> <span class="n">r</span><span class="p">,</span> <span class="n">n</span> <span class="ow">in</span> <span class="nb">zip</span><span class="p">(</span><span class="n">axes</span><span class="p">,</span> <span class="n">ranges</span><span class="p">,</span> <span class="n">bins</span><span class="p">)</span>
         <span class="p">}</span>
@@ -933,7 +920,7 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
     <span class="n">bin_centers</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">time_unit</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Get a normalization histogram from a timed dataframe.</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Get a normalization histogram from a timed datafram.</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        df (dask.dataframe.DataFrame): a dask.DataFrame on which to perform the</span>
@@ -963,7 +950,7 @@ <h1>Source code for sed.binning.binning</h1><div class="highlight"><pre>
 
 
 <span class="k">def</span> <span class="nf">apply_jitter_on_column</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">core</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">core</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">amp</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">col</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">mode</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;uniform&quot;</span><span class="p">,</span>
diff --git a/sed/latest/_modules/sed/binning/numba_bin.html b/sed/latest/_modules/sed/binning/numba_bin.html
index f78ddd2..9376529 100644
--- a/sed/latest/_modules/sed/binning/numba_bin.html
+++ b/sed/latest/_modules/sed/binning/numba_bin.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.binning.numba_bin &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.binning.numba_bin &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,14 +448,12 @@
   <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This file contains code for binning using numba precompiled code for the</span>
 <span class="sd">sed.binning module</span>
-
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">numba</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -472,7 +470,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span class="sd">    bit integers.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        sample (np.ndarray): The data to be histogram&#39;d with shape N,D.</span>
+<span class="sd">        sample (np.ndarray): The data to be histogrammed with shape N,D.</span>
 <span class="sd">        bins (Sequence[int]): The number of bins for each dimension D.</span>
 <span class="sd">        ranges (np.ndarray): A sequence of length D, each an optional (lower,</span>
 <span class="sd">            upper) tuple giving the outer bin edges to be used if the edges are</span>
@@ -497,7 +495,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 
     <span class="k">for</span> <span class="n">i</span> <span class="ow">in</span> <span class="nb">range</span><span class="p">(</span><span class="n">ndims</span><span class="p">):</span>
         <span class="n">delta</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">=</span> <span class="mi">1</span> <span class="o">/</span> <span class="p">((</span><span class="n">ranges</span><span class="p">[</span><span class="n">i</span><span class="p">,</span> <span class="mi">1</span><span class="p">]</span> <span class="o">-</span> <span class="n">ranges</span><span class="p">[</span><span class="n">i</span><span class="p">,</span> <span class="mi">0</span><span class="p">])</span> <span class="o">/</span> <span class="n">bins</span><span class="p">[</span><span class="n">i</span><span class="p">])</span>
-        <span class="n">strides</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">=</span> <span class="n">hist</span><span class="o">.</span><span class="n">strides</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">//</span> <span class="n">hist</span><span class="o">.</span><span class="n">itemsize</span>
+        <span class="n">strides</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">=</span> <span class="n">hist</span><span class="o">.</span><span class="n">strides</span><span class="p">[</span><span class="n">i</span><span class="p">]</span> <span class="o">//</span> <span class="n">hist</span><span class="o">.</span><span class="n">itemsize</span>  <span class="c1"># pylint: disable=E1136</span>
 
     <span class="k">for</span> <span class="n">t</span> <span class="ow">in</span> <span class="nb">range</span><span class="p">(</span><span class="n">sample</span><span class="o">.</span><span class="n">shape</span><span class="p">[</span><span class="mi">0</span><span class="p">]):</span>
         <span class="n">is_inside</span> <span class="o">=</span> <span class="kc">True</span>
@@ -559,7 +557,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">_hist_from_bins</span><span class="p">(</span>
     <span class="n">sample</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">bins</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-    <span class="n">shape</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">,</span>
+    <span class="n">shape</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Numba powered binning method, similar to np.histogramdd.</span>
 
@@ -569,7 +567,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span class="sd">        sample (np.ndarray) : the array of shape (N,D) on which to compute the histogram</span>
 <span class="sd">        bins (Sequence[np.ndarray]): array of shape (N,D) defining the D bins on which</span>
 <span class="sd">            to compute the histogram, i.e. the desired output axes.</span>
-<span class="sd">        shape (Tuple): shape of the resulting array. Workaround for the fact numba</span>
+<span class="sd">        shape (tuple): shape of the resulting array. Workaround for the fact numba</span>
 <span class="sd">            does not allow to create tuples.</span>
 <span class="sd">    Returns:</span>
 <span class="sd">        hist: the computed n-dimensional histogram</span>
@@ -607,10 +605,10 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/binning.html#sed.binning.numba_bin.numba_histogramdd">[docs]</a>
 <span class="k">def</span> <span class="nf">numba_histogramdd</span><span class="p">(</span>
     <span class="n">sample</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-    <span class="n">bins</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">bins</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]]:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Multidimensional histogram function, powered by Numba.</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]]:</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Multidimensional histogramming function, powered by Numba.</span>
 
 <span class="sd">    Behaves in total much like numpy.histogramdd. Returns uint32 arrays.</span>
 <span class="sd">    This was chosen because it has a significant performance improvement over</span>
@@ -620,8 +618,8 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span class="sd">    sizes.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        sample (np.ndarray): The data to be histogram&#39;d with shape N,D</span>
-<span class="sd">        bins (Union[int, Sequence[int], Sequence[np.ndarray], np.ndarray]): The number</span>
+<span class="sd">        sample (np.ndarray): The data to be histogrammed with shape N,D</span>
+<span class="sd">        bins (int | Sequence[int] | Sequence[np.ndarray] | np.ndarray): The number</span>
 <span class="sd">            of bins for each dimension D, or a sequence of bin edges on which to calculate</span>
 <span class="sd">            the histogram.</span>
 <span class="sd">        ranges (Sequence, optional): The range(s) to use for binning when bins is a sequence</span>
@@ -634,7 +632,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 <span class="sd">        RuntimeError: Internal shape error after binning</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[np.ndarray, List[np.ndarray]]: 2-element tuple of The computed histogram</span>
+<span class="sd">        tuple[np.ndarray, list[np.ndarray]]: 2-element tuple of The computed histogram</span>
 <span class="sd">        and s list of D arrays describing the bin edges for each dimension.</span>
 
 <span class="sd">        - **hist**: The computed histogram</span>
@@ -666,7 +664,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
 
     <span class="c1"># method == &quot;array&quot;</span>
     <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">bins</span><span class="p">[</span><span class="mi">0</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">):</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
         <span class="n">hist</span> <span class="o">=</span> <span class="n">_hist_from_bins</span><span class="p">(</span>
             <span class="n">sample</span><span class="p">,</span>
             <span class="nb">tuple</span><span class="p">(</span><span class="n">bins</span><span class="p">),</span>
@@ -692,7 +690,7 @@ <h1>Source code for sed.binning.numba_bin</h1><div class="highlight"><pre>
     <span class="n">bins</span> <span class="o">=</span> <span class="nb">tuple</span><span class="p">(</span><span class="n">bins</span><span class="p">)</span>
 
     <span class="c1"># Create edge arrays</span>
-    <span class="n">edges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+    <span class="n">edges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
     <span class="n">nbin</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">empty</span><span class="p">(</span><span class="n">num_cols</span><span class="p">,</span> <span class="nb">int</span><span class="p">)</span>
 
     <span class="k">for</span> <span class="n">i</span> <span class="ow">in</span> <span class="nb">range</span><span class="p">(</span><span class="n">num_cols</span><span class="p">):</span>
diff --git a/sed/latest/_modules/sed/binning/utils.html b/sed/latest/_modules/sed/binning/utils.html
index 222b725..de0841f 100644
--- a/sed/latest/_modules/sed/binning/utils.html
+++ b/sed/latest/_modules/sed/binning/utils.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.binning.utils &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.binning.utils &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -447,13 +447,11 @@
                   
   <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This file contains helper functions for the sed.binning module</span>
-
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
 
@@ -466,16 +464,10 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="simplify_binning_arguments">
 <a class="viewcode-back" href="../../../sed/binning.html#sed.binning.utils.simplify_binning_arguments">[docs]</a>
 <span class="k">def</span> <span class="nf">simplify_binning_arguments</span><span class="p">(</span>
-    <span class="n">bins</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span>
-        <span class="nb">int</span><span class="p">,</span>
-        <span class="nb">dict</span><span class="p">,</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-        <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
-    <span class="p">],</span>
+    <span class="n">bins</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
     <span class="n">axes</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]],</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]]:</span>
+    <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Convert the flexible input for defining bins into a</span>
 <span class="sd">    simple &quot;axes&quot; &quot;bins&quot; &quot;ranges&quot; tuple.</span>
 
@@ -483,13 +475,13 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 <span class="sd">    binning functions defined here.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        bins (int, dict, Sequence[int], Sequence[np.ndarray], Sequence[tuple]):</span>
+<span class="sd">        bins (int | dict | Sequence[int] | Sequence[np.ndarray] | Sequence[tuple]):</span>
 <span class="sd">            Definition of the bins. Can  be any of the following cases:</span>
 
 <span class="sd">                - an integer describing the number of bins for all dimensions. This</span>
 <span class="sd">                  requires &quot;ranges&quot; to be defined as well.</span>
 <span class="sd">                - A sequence containing one entry of the following types for each</span>
-<span class="sd">                  dimension:</span>
+<span class="sd">                  dimenstion:</span>
 
 <span class="sd">                    - an integer describing the number of bins. This requires &quot;ranges&quot;</span>
 <span class="sd">                      to be defined as well.</span>
@@ -506,7 +498,7 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 <span class="sd">            the order of the dimensions in the resulting array. Only not required if</span>
 <span class="sd">            bins are provided as dictionary containing the axis names.</span>
 <span class="sd">            Defaults to None.</span>
-<span class="sd">        ranges (Sequence[Tuple[float, float]], optional): Sequence of tuples containing</span>
+<span class="sd">        ranges (Sequence[tuple[float, float]], optional): Sequence of tuples containing</span>
 <span class="sd">            the start and end point of the binning range. Required if bins given as</span>
 <span class="sd">            int or Sequence[int]. Defaults to None.</span>
 
@@ -517,7 +509,7 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 <span class="sd">        AttributeError: Shape mismatch</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[Union[List[int], List[np.ndarray]], List[Tuple[float, float]]]: Tuple</span>
+<span class="sd">        tuple[list[int] | list[np.ndarray], list[str], list[tuple[float, float]]]: Tuple</span>
 <span class="sd">        containing lists of bin centers, axes, and ranges.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="c1"># if bins is a dictionary: unravel to axes and bins</span>
@@ -563,7 +555,7 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
 
     <span class="c1"># if bins are provided as int, check that ranges are present</span>
     <span class="k">if</span> <span class="nb">all</span><span class="p">(</span><span class="nb">isinstance</span><span class="p">(</span><span class="n">x</span><span class="p">,</span> <span class="p">(</span><span class="nb">int</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">int64</span><span class="p">))</span> <span class="k">for</span> <span class="n">x</span> <span class="ow">in</span> <span class="n">bins</span><span class="p">):</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
         <span class="k">if</span> <span class="n">ranges</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="k">raise</span> <span class="ne">AttributeError</span><span class="p">(</span>
                 <span class="s2">&quot;Must provide a range if bins is an integer or list of integers&quot;</span><span class="p">,</span>
@@ -573,9 +565,9 @@ <h1>Source code for sed.binning.utils</h1><div class="highlight"><pre>
                 <span class="sa">f</span><span class="s2">&quot;Ranges must be a sequence, not </span><span class="si">{</span><span class="nb">type</span><span class="p">(</span><span class="n">ranges</span><span class="p">)</span><span class="si">}</span><span class="s2">.&quot;</span><span class="p">,</span>
             <span class="p">)</span>
 
-    <span class="c1"># otherwise, all bins should be of type np.ndarray here</span>
+    <span class="c1"># otherwise, all bins should by np.ndarrays here</span>
     <span class="k">elif</span> <span class="nb">all</span><span class="p">(</span><span class="nb">isinstance</span><span class="p">(</span><span class="n">x</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">)</span> <span class="k">for</span> <span class="n">x</span> <span class="ow">in</span> <span class="n">bins</span><span class="p">):</span>
-        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
+        <span class="n">bins</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span> <span class="nb">list</span><span class="p">(</span><span class="n">bins</span><span class="p">))</span>
     <span class="k">else</span><span class="p">:</span>
         <span class="k">raise</span> <span class="ne">TypeError</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;Could not interpret bins of type </span><span class="si">{</span><span class="nb">type</span><span class="p">(</span><span class="n">bins</span><span class="p">)</span><span class="si">}</span><span class="s2">&quot;</span><span class="p">)</span>
 
diff --git a/sed/latest/_modules/sed/calibrator/delay.html b/sed/latest/_modules/sed/calibrator/delay.html
index 781f036..c42dc4d 100644
--- a/sed/latest/_modules/sed/calibrator/delay.html
+++ b/sed/latest/_modules/sed/calibrator/delay.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.calibrator.delay &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.calibrator.delay &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,14 +448,12 @@
   <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;sed.calibrator.delay module. Code for delay calibration.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">copy</span> <span class="kn">import</span> <span class="n">deepcopy</span>
 <span class="kn">from</span> <span class="nn">datetime</span> <span class="kn">import</span> <span class="n">datetime</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span>
 <span class="kn">import</span> <span class="nn">h5py</span>
@@ -496,32 +494,32 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
             <span class="s2">&quot;corrected_delay_column&quot;</span><span class="p">,</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">delay_column</span><span class="p">,</span>
         <span class="p">)</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;delay&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;delay&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;offsets&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;delay&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;delay&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;offsets&quot;</span><span class="p">,</span> <span class="p">{})</span>
 
 <div class="viewcode-block" id="DelayCalibrator.append_delay_axis">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.delay.DelayCalibrator.append_delay_axis">[docs]</a>
     <span class="k">def</span> <span class="nf">append_delay_axis</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">adc_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">delay_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">calibration</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">adc_range</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">Tuple</span><span class="p">,</span> <span class="n">List</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">delay_range</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">Tuple</span><span class="p">,</span> <span class="n">List</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">adc_range</span><span class="p">:</span> <span class="nb">tuple</span> <span class="o">|</span> <span class="nb">list</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">delay_range</span><span class="p">:</span> <span class="nb">tuple</span> <span class="o">|</span> <span class="nb">list</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">time0</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">delay_range_mm</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">Tuple</span><span class="p">,</span> <span class="n">List</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">delay_range_mm</span><span class="p">:</span> <span class="nb">tuple</span> <span class="o">|</span> <span class="nb">list</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">datafile</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">p1_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">p2_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">t0_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Calculate and append the delay axis to the events dataframe, by converting</span>
 <span class="sd">        values from an analog-digital-converter (ADC).</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): The dataframe where</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): The dataframe where</span>
 <span class="sd">                to apply the delay calibration to.</span>
 <span class="sd">            adc_column (str, optional): Source column for delay calibration.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;adc_column&quot;].</span>
@@ -529,14 +527,14 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;delay_column&quot;].</span>
 <span class="sd">            calibration (dict, optional): Calibration dictionary with parameters for</span>
 <span class="sd">                delay calibration.</span>
-<span class="sd">            adc_range (Union[Tuple, List, np.ndarray], optional): The range of used</span>
+<span class="sd">            adc_range (tuple | list | np.ndarray, optional): The range of used</span>
 <span class="sd">                ADC values. Defaults to config[&quot;delay&quot;][&quot;adc_range&quot;].</span>
-<span class="sd">            delay_range (Union[Tuple, List, np.ndarray], optional): Range of scanned</span>
+<span class="sd">            delay_range (tuple | list | np.ndarray, optional): Range of scanned</span>
 <span class="sd">                delay values in ps. If omitted, the range is calculated from the</span>
 <span class="sd">                delay_range_mm and t0 values.</span>
 <span class="sd">            time0 (float, optional): Pump-Probe overlap value of the delay coordinate.</span>
 <span class="sd">                If omitted, it is searched for in the data files.</span>
-<span class="sd">            delay_range_mm (Union[Tuple, List, np.ndarray], optional): Range of scanned</span>
+<span class="sd">            delay_range_mm (tuple | list | np.ndarray, optional): Range of scanned</span>
 <span class="sd">                delay stage in mm. If omitted, it is searched for in the data files.</span>
 <span class="sd">            datafile (str, optional): Datafile in which delay parameters are searched</span>
 <span class="sd">                for. Defaults to None.</span>
@@ -554,8 +552,8 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
 <span class="sd">            NotImplementedError: Raised if no sufficient information passed.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[pd.DataFrame, dask.dataframe.DataFrame]: dataframe with added column</span>
-<span class="sd">            and delay calibration metadata dictionary.</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: dataframe with added column</span>
+<span class="sd">            and delay calibration metdata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="c1"># pylint: disable=duplicate-code</span>
         <span class="k">if</span> <span class="n">calibration</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -662,39 +660,40 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">add_offsets</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
-        <span class="n">offsets</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">offsets</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">constant</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">flip_delay_axis</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">columns</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">weights</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="mf">1.0</span><span class="p">,</span>
-        <span class="n">preserve_mean</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-        <span class="n">reductions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">columns</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">weights</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="mf">1.0</span><span class="p">,</span>
+        <span class="n">preserve_mean</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
+        <span class="n">reductions</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">delay_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Apply an offset to the delay column based on a constant or other columns.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
-<span class="sd">            offsets (Dict, optional): Dictionary of delay offset parameters.</span>
+<span class="sd">            offsets (dict, optional): Dictionary of delay offset parameters.</span>
 <span class="sd">            constant (float, optional): The constant to shift the delay axis by.</span>
 <span class="sd">            flip_delay_axis (bool, optional): Whether to flip the time axis. Defaults to False.</span>
-<span class="sd">            columns (Union[str, Sequence[str]]): Name of the column(s) to apply the shift from.</span>
-<span class="sd">            weights (Union[int, Sequence[int]]): weights to apply to the columns.</span>
+<span class="sd">            columns (str | Sequence[str]): Name of the column(s) to apply the shift from.</span>
+<span class="sd">            weights (float | Sequence[float]): weights to apply to the columns.</span>
 <span class="sd">                Can also be used to flip the sign (e.g. -1). Defaults to 1.</span>
-<span class="sd">            preserve_mean (bool): Whether to subtract the mean of the column before applying the</span>
-<span class="sd">                shift. Defaults to False.</span>
-<span class="sd">            reductions (str): The reduction to apply to the column. Should be an available method</span>
-<span class="sd">                of dask.dataframe.Series. For example &quot;mean&quot;. In this case the function is applied</span>
-<span class="sd">                to the column to generate a single value for the whole dataset. If None, the shift</span>
-<span class="sd">                is applied per-dataframe-row. Defaults to None. Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            preserve_mean (bool | Sequence[bool]): Whether to subtract the mean of the column</span>
+<span class="sd">                before applying the shift. Defaults to False.</span>
+<span class="sd">            reductions (str | Sequence[str]): The reduction to apply to the column. Should be an</span>
+<span class="sd">                available method of dask.dataframe.Series. For example &quot;mean&quot;. In this case the</span>
+<span class="sd">                function is applied to the column to generate a single value for the whole dataset.</span>
+<span class="sd">                If None, the shift is applied per-dataframe-row. Defaults to None. Currently only</span>
+<span class="sd">                &quot;mean&quot; is supported.</span>
 <span class="sd">            delay_column (str, optional): Name of the column containing the delay values.</span>
 <span class="sd">            verbose (bool, optional): Option to print out diagnostic information.</span>
 <span class="sd">                Defaults to True.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            dask.dataframe.DataFrame: Dataframe with the shifted delay axis.</span>
-<span class="sd">            dict: Metadata dictionary.</span>
+<span class="sd">            tuple[dask.dataframe.DataFrame, dict]: Dataframe with the shifted delay axis and</span>
+<span class="sd">            Metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">offsets</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">offsets</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">)</span>
@@ -702,7 +701,7 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
         <span class="k">if</span> <span class="n">delay_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">delay_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">delay_column</span>
 
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
             <span class="s2">&quot;applied&quot;</span><span class="p">:</span> <span class="kc">True</span><span class="p">,</span>
         <span class="p">}</span>
 
@@ -838,7 +837,7 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
     <span class="n">p1_key</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">p2_key</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">t0_key</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">    Read delay stage ranges from hdf5 file</span>
 
@@ -866,18 +865,18 @@ <h1>Source code for sed.calibrator.delay</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="mm_to_ps">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.delay.mm_to_ps">[docs]</a>
 <span class="k">def</span> <span class="nf">mm_to_ps</span><span class="p">(</span>
-    <span class="n">delay_mm</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">delay_mm</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">time0_mm</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Converts a delay stage position in mm into a relative delay in picoseconds</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Converts a delaystage position in mm into a relative delay in picoseconds</span>
 <span class="sd">    (double pass).</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        delay_mm (Union[float, Sequence[float]]): Delay stage position in mm</span>
+<span class="sd">        delay_mm (float | np.ndarray): Delay stage position in mm</span>
 <span class="sd">        time0_mm (float): Delay stage position of pump-probe overlap in mm</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[float, Sequence[float]]: Relative delay in picoseconds</span>
+<span class="sd">        float | np.ndarray: Relative delay in picoseconds</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">delay_ps</span> <span class="o">=</span> <span class="p">(</span><span class="n">delay_mm</span> <span class="o">-</span> <span class="n">time0_mm</span><span class="p">)</span> <span class="o">/</span> <span class="mf">0.15</span>
     <span class="k">return</span> <span class="n">delay_ps</span></div>
diff --git a/sed/latest/_modules/sed/calibrator/energy.html b/sed/latest/_modules/sed/calibrator/energy.html
index 1ea72b2..0f0e3a9 100644
--- a/sed/latest/_modules/sed/calibrator/energy.html
+++ b/sed/latest/_modules/sed/calibrator/energy.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.calibrator.energy &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.calibrator.energy &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,19 +449,17 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;sed.calibrator.energy module. Code for energy calibration and</span>
 <span class="sd">correction. Mostly ported from https://github.com/mpes-kit/mpes.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">itertools</span> <span class="k">as</span> <span class="nn">it</span>
 <span class="kn">import</span> <span class="nn">warnings</span> <span class="k">as</span> <span class="nn">wn</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">copy</span> <span class="kn">import</span> <span class="n">deepcopy</span>
 <span class="kn">from</span> <span class="nn">datetime</span> <span class="kn">import</span> <span class="n">datetime</span>
 <span class="kn">from</span> <span class="nn">functools</span> <span class="kn">import</span> <span class="n">partial</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Literal</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">bokeh.plotting</span> <span class="k">as</span> <span class="nn">pbk</span>
 <span class="kn">import</span> <span class="nn">dask.dataframe</span>
@@ -543,9 +541,9 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
         <span class="bp">self</span><span class="o">.</span><span class="n">_config</span> <span class="o">=</span> <span class="n">config</span>
 
-        <span class="bp">self</span><span class="o">.</span><span class="n">featranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>  <span class="c1"># Value ranges for feature detection</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">featranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>  <span class="c1"># Value ranges for feature detection</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">peaks</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">asarray</span><span class="p">([])</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
 
         <span class="bp">self</span><span class="o">.</span><span class="n">tof_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;tof_column&quot;</span><span class="p">]</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">tof_ns_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;tof_ns_column&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
@@ -564,8 +562,8 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">color_clip</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">][</span><span class="s2">&quot;color_clip&quot;</span><span class="p">]</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">sector_delays</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;sector_delays&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">sector_id_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;sector_id_column&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;offsets&quot;</span><span class="p">,</span> <span class="p">{})</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">correction</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;correction&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;offsets&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">correction</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;correction&quot;</span><span class="p">,</span> <span class="p">{})</span>
 
     <span class="nd">@property</span>
     <span class="k">def</span> <span class="nf">ntraces</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">int</span><span class="p">:</span>
@@ -632,10 +630,10 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.bin_data">[docs]</a>
     <span class="k">def</span> <span class="nf">bin_data</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">data_files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
-        <span class="n">axes</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">bins</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">data_files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
+        <span class="n">axes</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">bins</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">biases</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">bias_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
@@ -643,12 +641,12 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Bin data from single-event files, and load into class.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            data_files (List[str]): list of file names to bin</span>
-<span class="sd">            axes (List[str], optional): bin axes. Defaults to</span>
+<span class="sd">            data_files (list[str]): list of file names to bin</span>
+<span class="sd">            axes (list[str], optional): bin axes. Defaults to</span>
 <span class="sd">                config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
-<span class="sd">            bins (List[int], optional): number of bins.</span>
+<span class="sd">            bins (list[int], optional): number of bins.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;bins&quot;].</span>
-<span class="sd">            ranges (Sequence[Tuple[float, float]], optional): bin ranges.</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): bin ranges.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;ranges&quot;].</span>
 <span class="sd">            biases (np.ndarray, optional): Bias voltages used.</span>
 <span class="sd">                If not provided, biases are extracted from the file meta data.</span>
@@ -664,7 +662,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="n">ranges_</span> <span class="o">=</span> <span class="p">[</span>
                 <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;energy&quot;</span><span class="p">][</span><span class="s2">&quot;ranges&quot;</span><span class="p">])</span> <span class="o">/</span> <span class="mi">2</span> <span class="o">**</span> <span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">binning</span> <span class="o">-</span> <span class="mi">1</span><span class="p">),</span>
             <span class="p">]</span>
-            <span class="n">ranges</span> <span class="o">=</span> <span class="p">[</span><span class="n">cast</span><span class="p">(</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span> <span class="nb">tuple</span><span class="p">(</span><span class="n">v</span><span class="p">))</span> <span class="k">for</span> <span class="n">v</span> <span class="ow">in</span> <span class="n">ranges_</span><span class="p">]</span>
+            <span class="n">ranges</span> <span class="o">=</span> <span class="p">[</span><span class="n">cast</span><span class="p">(</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span> <span class="nb">tuple</span><span class="p">(</span><span class="n">v</span><span class="p">))</span> <span class="k">for</span> <span class="n">v</span> <span class="ow">in</span> <span class="n">ranges_</span><span class="p">]</span>
         <span class="c1"># pylint: disable=duplicate-code</span>
         <span class="n">hist_mode</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;hist_mode&quot;</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;binning&quot;</span><span class="p">][</span><span class="s2">&quot;hist_mode&quot;</span><span class="p">])</span>
         <span class="n">mode</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;mode&quot;</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;binning&quot;</span><span class="p">][</span><span class="s2">&quot;mode&quot;</span><span class="p">])</span>
@@ -750,7 +748,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.adjust_ranges">[docs]</a>
     <span class="k">def</span> <span class="nf">adjust_ranges</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">,</span>
         <span class="n">ref_id</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
         <span class="n">traces</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">peak_window</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">7</span><span class="p">,</span>
@@ -761,7 +759,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        (containing the peaks) among all traces.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            ranges (Tuple):</span>
+<span class="sd">            ranges (tuple):</span>
 <span class="sd">                Collection of feature detection ranges, within which an algorithm</span>
 <span class="sd">                (i.e. 1D peak detector) with look for the feature.</span>
 <span class="sd">            ref_id (int, optional): Index of the reference trace. Defaults to 0.</span>
@@ -842,8 +840,8 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
                 <span class="n">plot_segs</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_ydata</span><span class="p">(</span><span class="n">traceseg</span><span class="p">)</span>
                 <span class="n">plot_segs</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">(</span><span class="n">tofseg</span><span class="p">)</span>
 
-                <span class="n">plot_peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">,</span> <span class="mi">0</span><span class="p">])</span>
-                <span class="n">plot_peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_ydata</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">,</span> <span class="mi">1</span><span class="p">])</span>
+                <span class="n">plot_peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">([</span><span class="bp">self</span><span class="o">.</span><span class="n">peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">,</span> <span class="mi">0</span><span class="p">]])</span>
+                <span class="n">plot_peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">]</span><span class="o">.</span><span class="n">set_ydata</span><span class="p">([</span><span class="bp">self</span><span class="o">.</span><span class="n">peaks</span><span class="p">[</span><span class="n">itr</span><span class="p">,</span> <span class="mi">1</span><span class="p">]])</span>
 
             <span class="n">fig</span><span class="o">.</span><span class="n">canvas</span><span class="o">.</span><span class="n">draw_idle</span><span class="p">()</span>
 
@@ -893,7 +891,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.add_ranges">[docs]</a>
     <span class="k">def</span> <span class="nf">add_ranges</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">],</span> <span class="n">Tuple</span><span class="p">],</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">|</span> <span class="nb">tuple</span><span class="p">,</span>
         <span class="n">ref_id</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
         <span class="n">traces</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">infer_others</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
@@ -903,14 +901,14 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Select or extract the equivalent feature ranges (containing the peaks) among all traces.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            ranges (Union[List[Tuple], Tuple]):</span>
+<span class="sd">            ranges (list[tuple] | tuple):</span>
 <span class="sd">                Collection of feature detection ranges, within which an algorithm</span>
 <span class="sd">                (i.e. 1D peak detector) with look for the feature.</span>
 <span class="sd">            ref_id (int, optional): Index of the reference trace. Defaults to 0.</span>
 <span class="sd">            traces (np.ndarray, optional): Collection of energy dispersion curves.</span>
 <span class="sd">                Defaults to self.traces_normed.</span>
 <span class="sd">            infer_others (bool, optional): Option to infer the feature detection range</span>
-<span class="sd">                in other traces from a given one using a time warp algorithm.</span>
+<span class="sd">                in other traces from a given one using a time warp algorthm.</span>
 <span class="sd">                Defaults to True.</span>
 <span class="sd">            mode (str, optional): Specification on how to change the feature ranges</span>
 <span class="sd">                (&#39;append&#39; or &#39;replace&#39;). Defaults to &quot;replace&quot;.</span>
@@ -923,7 +921,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="c1"># Infer the corresponding feature detection range of other traces by alignment</span>
         <span class="k">if</span> <span class="n">infer_others</span><span class="p">:</span>
             <span class="k">assert</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">ranges</span><span class="p">,</span> <span class="nb">tuple</span><span class="p">)</span>
-            <span class="n">newranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+            <span class="n">newranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
 
             <span class="k">for</span> <span class="n">i</span> <span class="ow">in</span> <span class="nb">range</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">ntraces</span><span class="p">):</span>
                 <span class="n">pathcorr</span> <span class="o">=</span> <span class="n">find_correspondence</span><span class="p">(</span>
@@ -949,14 +947,14 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.feature_extract">[docs]</a>
     <span class="k">def</span> <span class="nf">feature_extract</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">traces</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">peak_window</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">7</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Select or extract the equivalent landmarks (e.g. peaks) among all traces.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            ranges (List[Tuple], optional):  List of ranges in each trace to look for</span>
+<span class="sd">            ranges (list[tuple], optional):  List of ranges in each trace to look for</span>
 <span class="sd">                the peak feature, [start, end]. Defaults to self.featranges.</span>
 <span class="sd">            traces (np.ndarray, optional): Collection of 1D spectra to use for</span>
 <span class="sd">                calibration. Defaults to self.traces_normed.</span>
@@ -1082,7 +1080,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">view</span><span class="p">(</span>  <span class="c1"># pylint: disable=dangerous-default-value</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">traces</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-        <span class="n">segs</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">segs</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">peaks</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">show_legend</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">backend</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;matplotlib&quot;</span><span class="p">,</span>
@@ -1096,7 +1094,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
 <span class="sd">        Args:</span>
 <span class="sd">            traces (np.ndarray): Matrix of traces to visualize.</span>
-<span class="sd">            segs (List[Tuple], optional): Segments to be highlighted in the</span>
+<span class="sd">            segs (list[tuple], optional): Segments to be highlighted in the</span>
 <span class="sd">                visualization. Defaults to None.</span>
 <span class="sd">            peaks (np.ndarray, optional): Peak positions for labelling the traces.</span>
 <span class="sd">                Defaults to None.</span>
@@ -1130,7 +1128,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
         <span class="k">if</span> <span class="n">backend</span> <span class="o">==</span> <span class="s2">&quot;matplotlib&quot;</span><span class="p">:</span>
             <span class="n">figsize</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;figsize&quot;</span><span class="p">,</span> <span class="p">(</span><span class="mi">12</span><span class="p">,</span> <span class="mi">4</span><span class="p">))</span>
-            <span class="n">fig</span><span class="p">,</span> <span class="n">ax</span> <span class="o">=</span> <span class="n">plt</span><span class="o">.</span><span class="n">subplots</span><span class="p">(</span><span class="n">figsize</span><span class="o">=</span><span class="n">figsize</span><span class="p">)</span>
+            <span class="n">fig_plt</span><span class="p">,</span> <span class="n">ax</span> <span class="o">=</span> <span class="n">plt</span><span class="o">.</span><span class="n">subplots</span><span class="p">(</span><span class="n">figsize</span><span class="o">=</span><span class="n">figsize</span><span class="p">)</span>
             <span class="k">for</span> <span class="n">itr</span><span class="p">,</span> <span class="n">trace</span> <span class="ow">in</span> <span class="nb">enumerate</span><span class="p">(</span><span class="n">traces</span><span class="p">):</span>
                 <span class="k">if</span> <span class="n">align</span><span class="p">:</span>
                     <span class="n">ax</span><span class="o">.</span><span class="n">plot</span><span class="p">(</span>
@@ -1255,17 +1253,17 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.append_energy_axis">[docs]</a>
     <span class="k">def</span> <span class="nf">append_energy_axis</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">energy_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Calculate and append the energy axis to the events dataframe.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]):</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame):</span>
 <span class="sd">                Dataframe to apply the energy axis calibration to.</span>
 <span class="sd">            tof_column (str, optional): Label of the source column.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
@@ -1284,7 +1282,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">            NotImplementedError: Raised if an invalid calib_type is found.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[pd.DataFrame, dask.dataframe.DataFrame]: dataframe with added column</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: dataframe with added column</span>
 <span class="sd">            and energy calibration metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">tof_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -1371,15 +1369,15 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.append_tof_ns_axis">[docs]</a>
     <span class="k">def</span> <span class="nf">append_tof_ns_axis</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">tof_ns_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Converts the time-of-flight time from steps to time in ns.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to convert.</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to convert.</span>
 <span class="sd">            tof_column (str, optional): Name of the column containing the</span>
 <span class="sd">                time-of-flight steps. Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
 <span class="sd">            tof_ns_column (str, optional): Name of the column to store the</span>
@@ -1390,8 +1388,8 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;tof_binning&quot;].</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            dask.dataframe.DataFrame: Dataframe with the new columns.</span>
-<span class="sd">            dict: Metadata dictionary.</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: Dataframe with the new columns</span>
+<span class="sd">            and Metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="n">binwidth</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;binwidth&quot;</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">binwidth</span><span class="p">)</span>
         <span class="n">binning</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;binning&quot;</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">binning</span><span class="p">)</span>
@@ -1409,7 +1407,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="n">binning</span><span class="p">,</span>
             <span class="n">df</span><span class="p">[</span><span class="n">tof_column</span><span class="p">]</span><span class="o">.</span><span class="n">astype</span><span class="p">(</span><span class="s2">&quot;float64&quot;</span><span class="p">),</span>
         <span class="p">)</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
             <span class="s2">&quot;applied&quot;</span><span class="p">:</span> <span class="kc">True</span><span class="p">,</span>
             <span class="s2">&quot;binwidth&quot;</span><span class="p">:</span> <span class="n">binwidth</span><span class="p">,</span>
             <span class="s2">&quot;binning&quot;</span><span class="p">:</span> <span class="n">binning</span><span class="p">,</span>
@@ -1431,7 +1429,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">calibration</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">calibration</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
         <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;applied&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="kc">True</span>
         <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;calibration&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="n">calibration</span><span class="p">)</span>
         <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;tof&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">tof</span><span class="p">)</span>
@@ -1449,7 +1447,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="n">image</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">,</span>
         <span class="n">correction_type</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">amplitude</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">center</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">center</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">correction</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">apply</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
@@ -1469,7 +1467,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;correction_type&quot;].</span>
 <span class="sd">            amplitude (float, optional): Amplitude of the time-of-flight correction</span>
 <span class="sd">                term. Defaults to config[&quot;energy&quot;][&quot;correction&quot;][&quot;correction_type&quot;].</span>
-<span class="sd">            center (Tuple[float, float], optional): Center (x/y) coordinates for the</span>
+<span class="sd">            center (tuple[float, float], optional): Center (x/y) coordinates for the</span>
 <span class="sd">                correction. Defaults to config[&quot;energy&quot;][&quot;correction&quot;][&quot;center&quot;].</span>
 <span class="sd">            correction (dict, optional): Correction dict. Defaults to the config values</span>
 <span class="sd">                and is updated from provided and adjusted parameters.</span>
@@ -1620,9 +1618,9 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="p">)</span>
 
             <span class="n">trace1</span><span class="o">.</span><span class="n">set_ydata</span><span class="p">(</span><span class="n">correction_x</span><span class="p">)</span>
-            <span class="n">line1</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">(</span><span class="n">x</span><span class="o">=</span><span class="n">x_center</span><span class="p">)</span>
+            <span class="n">line1</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">([</span><span class="n">x_center</span><span class="p">])</span>
             <span class="n">trace2</span><span class="o">.</span><span class="n">set_ydata</span><span class="p">(</span><span class="n">correction_y</span><span class="p">)</span>
-            <span class="n">line2</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">(</span><span class="n">x</span><span class="o">=</span><span class="n">y_center</span><span class="p">)</span>
+            <span class="n">line2</span><span class="o">.</span><span class="n">set_xdata</span><span class="p">([</span><span class="n">y_center</span><span class="p">])</span>
 
             <span class="n">fig</span><span class="o">.</span><span class="n">canvas</span><span class="o">.</span><span class="n">draw_idle</span><span class="p">()</span>
 
@@ -1642,7 +1640,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
                 <span class="n">update</span><span class="p">(</span><span class="n">correction</span><span class="p">[</span><span class="s2">&quot;amplitude&quot;</span><span class="p">],</span> <span class="n">x_center</span><span class="p">,</span> <span class="n">y_center</span><span class="p">,</span> <span class="n">diameter</span><span class="o">=</span><span class="n">correction</span><span class="p">[</span><span class="s2">&quot;diameter&quot;</span><span class="p">])</span>
             <span class="k">except</span> <span class="ne">KeyError</span> <span class="k">as</span> <span class="n">exc</span><span class="p">:</span>
                 <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span>
-                    <span class="s2">&quot;Parameter &#39;diameter&#39; required for correction type &#39;spherical&#39;, &quot;</span><span class="p">,</span>
+                    <span class="s2">&quot;Parameter &#39;diameter&#39; required for correction type &#39;sperical&#39;, &quot;</span><span class="p">,</span>
                     <span class="s2">&quot;but not present!&quot;</span><span class="p">,</span>
                 <span class="p">)</span> <span class="kn">from</span> <span class="nn">exc</span>
 
@@ -1798,7 +1796,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.apply_energy_correction">[docs]</a>
     <span class="k">def</span> <span class="nf">apply_energy_correction</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">new_tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">correction_type</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -1806,11 +1804,11 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="n">correction</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Apply correction to the time-of-flight (TOF) axis of single-event data.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): The dataframe where</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): The dataframe where</span>
 <span class="sd">                to apply the energy correction to.</span>
 <span class="sd">            tof_column (str, optional): Name of the source column to convert.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
@@ -1827,7 +1825,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;correction_type&quot;].</span>
 <span class="sd">            amplitude (float, optional): Amplitude of the time-of-flight correction</span>
 <span class="sd">                term. Defaults to config[&quot;energy&quot;][&quot;correction&quot;][&quot;correction_type&quot;].</span>
-<span class="sd">            correction (dict, optional): Correction dictionary containing parameters</span>
+<span class="sd">            correction (dict, optional): Correction dictionary containing paramters</span>
 <span class="sd">                for the correction. Defaults to self.correction or</span>
 <span class="sd">                config[&quot;energy&quot;][&quot;correction&quot;].</span>
 <span class="sd">            verbose (bool, optional): Option to print out diagnostic information.</span>
@@ -1847,7 +1845,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">                  asymmetric 2D Lorentz profile, X-direction.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[pd.DataFrame, dask.dataframe.DataFrame]: dataframe with added column</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: dataframe with added column</span>
 <span class="sd">            and Energy correction metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">correction</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -1908,7 +1906,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">correction</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">correction</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">correction</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
         <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;applied&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="kc">True</span>
         <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;correction&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="n">correction</span><span class="p">)</span>
 
@@ -1923,11 +1921,11 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="n">tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">sector_id_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">sector_delays</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Aligns the time-of-flight axis of the different sections of a detector.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">            df (dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">            tof_column (str, optional): Name of the column containing the time-of-flight values.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
 <span class="sd">            sector_id_column (str, optional): Name of the column containing the sector id values.</span>
@@ -1936,8 +1934,8 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">                config[&quot;dataframe&quot;][&quot;sector_delays&quot;].</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            dask.dataframe.DataFrame: Dataframe with the new columns.</span>
-<span class="sd">            dict: Metadata dictionary.</span>
+<span class="sd">            tuple[dask.dataframe.DataFrame, dict]: Dataframe with the new columns and Metadata</span>
+<span class="sd">            dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">sector_delays</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">sector_delays</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">sector_delays</span>
@@ -1959,7 +1957,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="k">return</span> <span class="n">val</span><span class="o">.</span><span class="n">astype</span><span class="p">(</span><span class="n">np</span><span class="o">.</span><span class="n">float32</span><span class="p">)</span>
 
         <span class="n">df</span><span class="p">[</span><span class="n">tof_column</span><span class="p">]</span> <span class="o">=</span> <span class="n">df</span><span class="o">.</span><span class="n">map_partitions</span><span class="p">(</span><span class="n">align_sector</span><span class="p">,</span> <span class="n">meta</span><span class="o">=</span><span class="p">(</span><span class="n">tof_column</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">float32</span><span class="p">))</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
             <span class="s2">&quot;applied&quot;</span><span class="p">:</span> <span class="kc">True</span><span class="p">,</span>
             <span class="s2">&quot;sector_delays&quot;</span><span class="p">:</span> <span class="n">sector_delays</span><span class="p">,</span>
         <span class="p">}</span>
@@ -1970,16 +1968,16 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.EnergyCalibrator.add_offsets">[docs]</a>
     <span class="k">def</span> <span class="nf">add_offsets</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">offsets</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">offsets</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">constant</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">columns</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">weights</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">preserve_mean</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-        <span class="n">reductions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">columns</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">weights</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">preserve_mean</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
+        <span class="n">reductions</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">energy_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Apply an offset to the energy column by the values of the provided columns.</span>
 
 <span class="sd">        If no parameter is passed to this function, the offset is applied as defined in the</span>
@@ -1987,25 +1985,26 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        and the offset is applied using the ``dfops.apply_offset_from_columns()`` function.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">            offsets (Dict, optional): Dictionary of energy offset parameters.</span>
 <span class="sd">            constant (float, optional): The constant to shift the energy axis by.</span>
-<span class="sd">            columns (Union[str, Sequence[str]]): Name of the column(s) to apply the shift from.</span>
-<span class="sd">            weights (Union[float, Sequence[float]]): weights to apply to the columns.</span>
+<span class="sd">            columns (str | Sequence[str]): Name of the column(s) to apply the shift from.</span>
+<span class="sd">            weights (float | Sequence[float]): weights to apply to the columns.</span>
 <span class="sd">                Can also be used to flip the sign (e.g. -1). Defaults to 1.</span>
-<span class="sd">            preserve_mean (bool): Whether to subtract the mean of the column before applying the</span>
-<span class="sd">                shift. Defaults to False.</span>
-<span class="sd">            reductions (str): The reduction to apply to the column. Should be an available method</span>
-<span class="sd">                of dask.dataframe.Series. For example &quot;mean&quot;. In this case the function is applied</span>
-<span class="sd">                to the column to generate a single value for the whole dataset. If None, the shift</span>
-<span class="sd">                is applied per-dataframe-row. Defaults to None. Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            preserve_mean (bool | Sequence[bool]): Whether to subtract the mean of the column</span>
+<span class="sd">                before applying the shift. Defaults to False.</span>
+<span class="sd">            reductions (str | Sequence[str]): The reduction to apply to the column. Should be an</span>
+<span class="sd">                available method of dask.dataframe.Series. For example &quot;mean&quot;. In this case the</span>
+<span class="sd">                function is applied to the column to generate a single value for the whole dataset.</span>
+<span class="sd">                If None, the shift is applied per-dataframe-row. Defaults to None. Currently only</span>
+<span class="sd">                &quot;mean&quot; is supported.</span>
 <span class="sd">            energy_column (str, optional): Name of the column containing the energy values.</span>
 <span class="sd">            verbose (bool, optional): Option to print out diagnostic information.</span>
 <span class="sd">                Defaults to True.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            dask.dataframe.DataFrame: Dataframe with the new columns.</span>
-<span class="sd">            dict: Metadata dictionary.</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: Dataframe with the new columns</span>
+<span class="sd">            and Metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">offsets</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">offsets</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">offsets</span><span class="p">)</span>
@@ -2013,7 +2012,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
         <span class="k">if</span> <span class="n">energy_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">energy_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">energy_column</span>
 
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{</span>
             <span class="s2">&quot;applied&quot;</span><span class="p">:</span> <span class="kc">True</span><span class="p">,</span>
         <span class="p">}</span>
 
@@ -2145,17 +2144,17 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="extract_bias">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.extract_bias">[docs]</a>
-<span class="k">def</span> <span class="nf">extract_bias</span><span class="p">(</span><span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">bias_key</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
+<span class="k">def</span> <span class="nf">extract_bias</span><span class="p">(</span><span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">bias_key</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Read bias values from hdf5 files</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        files (List[str]): List of filenames</span>
+<span class="sd">        files (list[str]): List of filenames</span>
 <span class="sd">        bias_key (str): hdf5 path to the bias value</span>
 
 <span class="sd">    Returns:</span>
 <span class="sd">        np.ndarray: Array of bias values.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
-    <span class="n">bias_list</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+    <span class="n">bias_list</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
     <span class="k">for</span> <span class="n">file</span> <span class="ow">in</span> <span class="n">files</span><span class="p">:</span>
         <span class="k">with</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">(</span><span class="n">file</span><span class="p">,</span> <span class="s2">&quot;r&quot;</span><span class="p">)</span> <span class="k">as</span> <span class="n">file_handle</span><span class="p">:</span>
             <span class="k">if</span> <span class="n">bias_key</span><span class="p">[</span><span class="mi">0</span><span class="p">]</span> <span class="o">==</span> <span class="s2">&quot;@&quot;</span><span class="p">:</span>
@@ -2170,21 +2169,21 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="correction_function">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.correction_function">[docs]</a>
 <span class="k">def</span> <span class="nf">correction_function</span><span class="p">(</span>
-    <span class="n">x</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-    <span class="n">y</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">x</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
+    <span class="n">y</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">correction_type</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="n">center</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span>
+    <span class="n">center</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span>
     <span class="n">amplitude</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Calculate the TOF correction based on the given X/Y coordinates and a model.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        x (float): x coordinate</span>
-<span class="sd">        y (float): y coordinate</span>
+<span class="sd">        x (float | np.ndarray): x coordinate</span>
+<span class="sd">        y (float | np.ndarray): y coordinate</span>
 <span class="sd">        correction_type (str): type of correction. One of</span>
 <span class="sd">            &quot;spherical&quot;, &quot;Lorentzian&quot;, &quot;Gaussian&quot;, or &quot;Lorentzian_asymmetric&quot;</span>
-<span class="sd">        center (Tuple[int, int]): center position of the distribution (x,y)</span>
+<span class="sd">        center (tuple[int, int]): center position of the distribution (x,y)</span>
 <span class="sd">        amplitude (float): Amplitude of the correction</span>
 <span class="sd">        **kwds: Keyword arguments:</span>
 
@@ -2199,7 +2198,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">              asymmetric 2D Lorentz profile, X-direction.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        float: calculated correction value</span>
+<span class="sd">        float | np.ndarray: calculated correction value</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">if</span> <span class="n">correction_type</span> <span class="o">==</span> <span class="s2">&quot;spherical&quot;</span><span class="p">:</span>
         <span class="k">try</span><span class="p">:</span>
@@ -2359,21 +2358,21 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.range_convert">[docs]</a>
 <span class="k">def</span> <span class="nf">range_convert</span><span class="p">(</span>
     <span class="n">x</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-    <span class="n">xrng</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">,</span>
+    <span class="n">xrng</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">,</span>
     <span class="n">pathcorr</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Convert value range using a pairwise path correspondence (e.g. obtained</span>
 <span class="sd">    from time warping algorithm).</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        x (np.ndarray): Values of the x axis (e.g. time-of-flight values).</span>
-<span class="sd">        xrng (Tuple): Boundary value range on the x axis.</span>
+<span class="sd">        xrng (tuple): Boundary value range on the x axis.</span>
 <span class="sd">        pathcorr (np.ndarray): Path correspondence between two 1D arrays in the</span>
 <span class="sd">            following form,</span>
 <span class="sd">            [(id_1_trace_1, id_1_trace_2), (id_2_trace_1, id_2_trace_2), ...]</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple: Transformed range according to the path correspondence.</span>
+<span class="sd">        tuple: Transformed range according to the path correspondence.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">pathcorr</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">asarray</span><span class="p">(</span><span class="n">pathcorr</span><span class="p">)</span>
     <span class="n">xrange_trans</span> <span class="o">=</span> <span class="p">[]</span>
@@ -2409,7 +2408,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">peaksearch</span><span class="p">(</span>
     <span class="n">traces</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">tof</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-    <span class="n">ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">pkwindow</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">3</span><span class="p">,</span>
     <span class="n">plot</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
@@ -2418,7 +2417,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">    Args:</span>
 <span class="sd">        traces (np.ndarray): Collection of 1D spectra.</span>
 <span class="sd">        tof (np.ndarray): Time-of-flight values.</span>
-<span class="sd">        ranges (List[Tuple], optional): List of ranges for peak detection in the format</span>
+<span class="sd">        ranges (list[tuple], optional): List of ranges for peak detection in the format</span>
 <span class="sd">        [(LowerBound1, UpperBound1), (LowerBound2, UpperBound2), ....].</span>
 <span class="sd">            Defaults to None.</span>
 <span class="sd">        pkwindow (int, optional): Window width of a peak (amounts to lookahead in</span>
@@ -2458,8 +2457,8 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">_datacheck_peakdetect</span><span class="p">(</span>
     <span class="n">x_axis</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">y_axis</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Input format checking for 1D peakdetect algorithm</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Input format checking for 1D peakdtect algorithm</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        x_axis (np.ndarray): x-axis array</span>
@@ -2469,7 +2468,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        ValueError: Raised if x and y values don&#39;t have the same length.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[np.ndarray, np.ndarray]: Tuple of checked (x/y) arrays.</span>
+<span class="sd">        tuple[np.ndarray, np.ndarray]: Tuple of checked (x/y) arrays.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
     <span class="k">if</span> <span class="n">x_axis</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -2494,7 +2493,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
     <span class="n">x_axis</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">lookahead</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">200</span><span class="p">,</span>
     <span class="n">delta</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Function for detecting local maxima and minima in a signal.</span>
 <span class="sd">    Discovers peaks by searching for values which are surrounded by lower</span>
 <span class="sd">    or larger values for maxima and minima respectively</span>
@@ -2521,7 +2520,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">        ValueError: Raised if lookahead and delta are out of range.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[np.ndarray, np.ndarray]: Tuple of positions of the positive peaks,</span>
+<span class="sd">        tuple[np.ndarray, np.ndarray]: Tuple of positions of the positive peaks,</span>
 <span class="sd">        positions of the negative peaks</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">max_peaks</span> <span class="o">=</span> <span class="p">[]</span>
@@ -2542,7 +2541,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
     <span class="c1"># maxima and minima candidates are temporarily stored in</span>
     <span class="c1"># mx and mn respectively</span>
-    <span class="n">_min</span><span class="p">,</span> <span class="n">_max</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">Inf</span><span class="p">,</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">Inf</span>
+    <span class="n">_min</span><span class="p">,</span> <span class="n">_max</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">inf</span><span class="p">,</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">inf</span>
 
     <span class="c1"># Only detect peak if there is &#39;lookahead&#39; amount of points after it</span>
     <span class="k">for</span> <span class="n">index</span><span class="p">,</span> <span class="p">(</span><span class="n">x</span><span class="p">,</span> <span class="n">y</span><span class="p">)</span> <span class="ow">in</span> <span class="nb">enumerate</span><span class="p">(</span>
@@ -2557,15 +2556,15 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="n">_min_pos</span> <span class="o">=</span> <span class="n">x</span>
 
         <span class="c1"># Find local maxima</span>
-        <span class="k">if</span> <span class="n">y</span> <span class="o">&lt;</span> <span class="n">_max</span> <span class="o">-</span> <span class="n">delta</span> <span class="ow">and</span> <span class="n">_max</span> <span class="o">!=</span> <span class="n">np</span><span class="o">.</span><span class="n">Inf</span><span class="p">:</span>
+        <span class="k">if</span> <span class="n">y</span> <span class="o">&lt;</span> <span class="n">_max</span> <span class="o">-</span> <span class="n">delta</span> <span class="ow">and</span> <span class="n">_max</span> <span class="o">!=</span> <span class="n">np</span><span class="o">.</span><span class="n">inf</span><span class="p">:</span>
             <span class="c1"># Maxima peak candidate found</span>
             <span class="c1"># look ahead in signal to ensure that this is a peak and not jitter</span>
             <span class="k">if</span> <span class="n">y_axis</span><span class="p">[</span><span class="n">index</span> <span class="p">:</span> <span class="n">index</span> <span class="o">+</span> <span class="n">lookahead</span><span class="p">]</span><span class="o">.</span><span class="n">max</span><span class="p">()</span> <span class="o">&lt;</span> <span class="n">_max</span><span class="p">:</span>
                 <span class="n">max_peaks</span><span class="o">.</span><span class="n">append</span><span class="p">([</span><span class="n">_max_pos</span><span class="p">,</span> <span class="n">_max</span><span class="p">])</span>
                 <span class="n">dump</span><span class="o">.</span><span class="n">append</span><span class="p">(</span><span class="kc">True</span><span class="p">)</span>
                 <span class="c1"># Set algorithm to only find minima now</span>
-                <span class="n">_max</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">Inf</span>
-                <span class="n">_min</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">Inf</span>
+                <span class="n">_max</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">inf</span>
+                <span class="n">_min</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">inf</span>
 
                 <span class="k">if</span> <span class="n">index</span> <span class="o">+</span> <span class="n">lookahead</span> <span class="o">&gt;=</span> <span class="n">length</span><span class="p">:</span>
                     <span class="c1"># The end is within lookahead no more peaks can be found</span>
@@ -2576,15 +2575,15 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
             <span class="c1">#    mxpos = x_axis[np.where(y_axis[index:index+lookahead]==mx)]</span>
 
         <span class="c1"># Find local minima</span>
-        <span class="k">if</span> <span class="n">y</span> <span class="o">&gt;</span> <span class="n">_min</span> <span class="o">+</span> <span class="n">delta</span> <span class="ow">and</span> <span class="n">_min</span> <span class="o">!=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">Inf</span><span class="p">:</span>
+        <span class="k">if</span> <span class="n">y</span> <span class="o">&gt;</span> <span class="n">_min</span> <span class="o">+</span> <span class="n">delta</span> <span class="ow">and</span> <span class="n">_min</span> <span class="o">!=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">inf</span><span class="p">:</span>
             <span class="c1"># Minima peak candidate found</span>
             <span class="c1"># look ahead in signal to ensure that this is a peak and not jitter</span>
             <span class="k">if</span> <span class="n">y_axis</span><span class="p">[</span><span class="n">index</span> <span class="p">:</span> <span class="n">index</span> <span class="o">+</span> <span class="n">lookahead</span><span class="p">]</span><span class="o">.</span><span class="n">min</span><span class="p">()</span> <span class="o">&gt;</span> <span class="n">_min</span><span class="p">:</span>
                 <span class="n">min_peaks</span><span class="o">.</span><span class="n">append</span><span class="p">([</span><span class="n">_min_pos</span><span class="p">,</span> <span class="n">_min</span><span class="p">])</span>
                 <span class="n">dump</span><span class="o">.</span><span class="n">append</span><span class="p">(</span><span class="kc">False</span><span class="p">)</span>
                 <span class="c1"># Set algorithm to only find maxima now</span>
-                <span class="n">_min</span> <span class="o">=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">Inf</span>
-                <span class="n">_max</span> <span class="o">=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">Inf</span>
+                <span class="n">_min</span> <span class="o">=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">inf</span>
+                <span class="n">_max</span> <span class="o">=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">inf</span>
 
                 <span class="k">if</span> <span class="n">index</span> <span class="o">+</span> <span class="n">lookahead</span> <span class="o">&gt;=</span> <span class="n">length</span><span class="p">:</span>
                     <span class="c1"># The end is within lookahead no more peaks can be found</span>
@@ -2611,13 +2610,13 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="fit_energy_calibration">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.fit_energy_calibration">[docs]</a>
 <span class="k">def</span> <span class="nf">fit_energy_calibration</span><span class="p">(</span>
-    <span class="n">pos</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-    <span class="n">vals</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">pos</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
+    <span class="n">vals</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">binwidth</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">binning</span><span class="p">:</span> <span class="nb">int</span><span class="p">,</span>
     <span class="n">ref_id</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
     <span class="n">ref_energy</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">t</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">t</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">energy_scale</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;kinetic&quot;</span><span class="p">,</span>
     <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
     <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
@@ -2627,16 +2626,16 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">    function d/(t-t0)**2.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        pos (Union[List[float], np.ndarray]): Positions of the spectral landmarks</span>
+<span class="sd">        pos (list[float] | np.ndarray): Positions of the spectral landmarks</span>
 <span class="sd">            (e.g. peaks) in the EDCs.</span>
-<span class="sd">        vals (Union[List[float], np.ndarray]): Bias voltage value associated with</span>
+<span class="sd">        vals (list[float] | np.ndarray): Bias voltage value associated with</span>
 <span class="sd">            each EDC.</span>
 <span class="sd">        binwidth (float): Time width of each original TOF bin in ns.</span>
 <span class="sd">        binning (int): Binning factor of the TOF values.</span>
 <span class="sd">        ref_id (int, optional): Reference dataset index. Defaults to 0.</span>
-<span class="sd">        ref_energy (float, optional): Energy value of the feature in the reference</span>
+<span class="sd">        ref_energy (float, optional): Energy value of the feature in the refence</span>
 <span class="sd">            trace (eV). required to output the calibration. Defaults to None.</span>
-<span class="sd">        t (Union[List[float], np.ndarray], optional): Array of TOF values. Required</span>
+<span class="sd">        t (list[float] | np.ndarray, optional): Array of TOF values. Required</span>
 <span class="sd">            to calculate calibration trace. Defaults to None.</span>
 <span class="sd">        energy_scale (str, optional): Direction of increasing energy scale.</span>
 
@@ -2656,7 +2655,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">    Returns:</span>
 <span class="sd">        dict: A dictionary of fitting parameters including the following,</span>
 
-<span class="sd">        - &quot;coeffs&quot;: Fitted function coefficients.</span>
+<span class="sd">        - &quot;coeffs&quot;: Fitted function coefficents.</span>
 <span class="sd">        - &quot;axis&quot;: Fitted energy axis.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">vals</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">asarray</span><span class="p">(</span><span class="n">vals</span><span class="p">)</span>
@@ -2750,12 +2749,12 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="poly_energy_calibration">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.poly_energy_calibration">[docs]</a>
 <span class="k">def</span> <span class="nf">poly_energy_calibration</span><span class="p">(</span>
-    <span class="n">pos</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-    <span class="n">vals</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">pos</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
+    <span class="n">vals</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">order</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">3</span><span class="p">,</span>
     <span class="n">ref_id</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
     <span class="n">ref_energy</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">t</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">t</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">aug</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">1</span><span class="p">,</span>
     <span class="n">method</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;lstsq&quot;</span><span class="p">,</span>
     <span class="n">energy_scale</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;kinetic&quot;</span><span class="p">,</span>
@@ -2770,15 +2769,15 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 
 
 <span class="sd">    Args:</span>
-<span class="sd">        pos (Union[List[float], np.ndarray]): Positions of the spectral landmarks</span>
+<span class="sd">        pos (list[float] | np.ndarray): Positions of the spectral landmarks</span>
 <span class="sd">            (e.g. peaks) in the EDCs.</span>
-<span class="sd">        vals (Union[List[float], np.ndarray]): Bias voltage value associated with</span>
+<span class="sd">        vals (list[float] | np.ndarray): Bias voltage value associated with</span>
 <span class="sd">            each EDC.</span>
 <span class="sd">        order (int, optional): Polynomial order of the fitting function. Defaults to 3.</span>
 <span class="sd">        ref_id (int, optional): Reference dataset index. Defaults to 0.</span>
-<span class="sd">        ref_energy (float, optional): Energy value of the feature in the reference</span>
+<span class="sd">        ref_energy (float, optional): Energy value of the feature in the refence</span>
 <span class="sd">            trace (eV). required to output the calibration. Defaults to None.</span>
-<span class="sd">        t (Union[List[float], np.ndarray], optional): Array of TOF values. Required</span>
+<span class="sd">        t (list[float] | np.ndarray, optional): Array of TOF values. Required</span>
 <span class="sd">            to calculate calibration trace. Defaults to None.</span>
 <span class="sd">        aug (int, optional): Fitting dimension augmentation</span>
 <span class="sd">            (1=no change, 2=double, etc). Defaults to 1.</span>
@@ -2907,7 +2906,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="tof2evpoly">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.energy.tof2evpoly">[docs]</a>
 <span class="k">def</span> <span class="nf">tof2evpoly</span><span class="p">(</span>
-    <span class="n">poly_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
+    <span class="n">poly_a</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">energy_offset</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">t</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">float</span><span class="p">:</span>
@@ -2915,7 +2914,7 @@ <h1>Source code for sed.calibrator.energy</h1><div class="highlight"><pre>
 <span class="sd">    conversion formula.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        poly_a (Union[List[float], np.ndarray]): Polynomial coefficients.</span>
+<span class="sd">        poly_a (list[float] | np.ndarray): Polynomial coefficients.</span>
 <span class="sd">        energy_offset (float): Energy offset in eV.</span>
 <span class="sd">        t (float): TOF value in bin number.</span>
 
diff --git a/sed/latest/_modules/sed/calibrator/momentum.html b/sed/latest/_modules/sed/calibrator/momentum.html
index 4a15598..d6eb762 100644
--- a/sed/latest/_modules/sed/calibrator/momentum.html
+++ b/sed/latest/_modules/sed/calibrator/momentum.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.calibrator.momentum &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.calibrator.momentum &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,14 +449,12 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;sed.calibrator.momentum module. Code for momentum calibration and distortion</span>
 <span class="sd">correction. Mostly ported from https://github.com/mpes-kit/mpes.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">itertools</span> <span class="k">as</span> <span class="nn">it</span>
 <span class="kn">from</span> <span class="nn">copy</span> <span class="kn">import</span> <span class="n">deepcopy</span>
 <span class="kn">from</span> <span class="nn">datetime</span> <span class="kn">import</span> <span class="n">datetime</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">bokeh.palettes</span> <span class="k">as</span> <span class="nn">bp</span>
 <span class="kn">import</span> <span class="nn">bokeh.plotting</span> <span class="k">as</span> <span class="nn">pbk</span>
@@ -490,9 +488,9 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">    Momentum distortion correction and momentum calibration workflow functions.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        data (Union[xr.DataArray, np.ndarray], optional): Multidimensional hypervolume</span>
+<span class="sd">        data (xr.DataArray | np.ndarray, optional): Multidimensional hypervolume</span>
 <span class="sd">            containing the data. Defaults to None.</span>
-<span class="sd">        bin_ranges (List[Tuple], optional): Binning ranges of the data volume, if</span>
+<span class="sd">        bin_ranges (list[tuple], optional): Binning ranges of the data volume, if</span>
 <span class="sd">            provided as np.ndarray. Defaults to None.</span>
 <span class="sd">        rotsym (int, optional): Rotational symmetry of the data. Defaults to 6.</span>
 <span class="sd">        config (dict, optional): Config dictionary. Defaults to None.</span>
@@ -500,17 +498,17 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 
     <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">data</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">bin_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">data</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">bin_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">rotsym</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">6</span><span class="p">,</span>
         <span class="n">config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Constructor of the MomentumCorrector class.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            data (Union[xr.DataArray, np.ndarray], optional): Multidimensional</span>
+<span class="sd">            data (xr.DataArray | np.ndarray, optional): Multidimensional</span>
 <span class="sd">                hypervolume containing the data. Defaults to None.</span>
-<span class="sd">            bin_ranges (List[Tuple], optional): Binning ranges of the data volume,</span>
+<span class="sd">            bin_ranges (list[tuple], optional): Binning ranges of the data volume,</span>
 <span class="sd">                if provided as np.ndarray. Defaults to None.</span>
 <span class="sd">            rotsym (int, optional): Rotational symmetry of the data. Defaults to 6.</span>
 <span class="sd">            config (dict, optional): Config dictionary. Defaults to None.</span>
@@ -525,7 +523,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">slice</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">slice_corrected</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">slice_transformed</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">bin_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;bin_ranges&quot;</span><span class="p">,</span> <span class="p">[])</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">bin_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;bin_ranges&quot;</span><span class="p">,</span> <span class="p">[])</span>
 
         <span class="k">if</span> <span class="n">data</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">:</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">load_data</span><span class="p">(</span><span class="n">data</span><span class="o">=</span><span class="n">data</span><span class="p">,</span> <span class="n">bin_ranges</span><span class="o">=</span><span class="n">bin_ranges</span><span class="p">)</span>
@@ -540,7 +538,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">include_center</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">use_center</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">pouter</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">pcent</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="o">...</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">pcent</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="o">...</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">pouter_ord</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">prefs</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">ptargs</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
@@ -556,10 +554,10 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">cdeform_field_bkp</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">inverse_dfield</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">dfield_updated</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">transformations</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;transformations&quot;</span><span class="p">,</span> <span class="p">{})</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">correction</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;correction&quot;</span><span class="p">,</span> <span class="p">{})</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">adjust_params</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">transformations</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;transformations&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">correction</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;correction&quot;</span><span class="p">,</span> <span class="p">{})</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">adjust_params</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="s2">&quot;calibration&quot;</span><span class="p">,</span> <span class="p">{})</span>
 
         <span class="bp">self</span><span class="o">.</span><span class="n">x_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;x_column&quot;</span><span class="p">]</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">y_column</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;y_column&quot;</span><span class="p">]</span>
@@ -605,15 +603,15 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.load_data">[docs]</a>
     <span class="k">def</span> <span class="nf">load_data</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">data</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-        <span class="n">bin_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">data</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
+        <span class="n">bin_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Load binned data into the momentum calibrator class</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            data (Union[xr.DataArray, np.ndarray]):</span>
+<span class="sd">            data (xr.DataArray | np.ndarray):</span>
 <span class="sd">                2D or 3D data array, either as np.ndarray or xr.DataArray.</span>
-<span class="sd">            bin_ranges (List[Tuple], optional):</span>
+<span class="sd">            bin_ranges (list[tuple], optional):</span>
 <span class="sd">                Binning ranges. Needs to be provided in case the data are given</span>
 <span class="sd">                as np.ndarray. Otherwise, they are determined from the coords of</span>
 <span class="sd">                the xr.DataArray. Defaults to None.</span>
@@ -722,9 +720,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="n">axmax</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">max</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">slice</span><span class="p">,</span> <span class="n">axis</span><span class="o">=</span><span class="p">(</span><span class="mi">0</span><span class="p">,</span> <span class="mi">1</span><span class="p">))</span>
             <span class="k">if</span> <span class="n">axmin</span> <span class="o">&lt;</span> <span class="n">axmax</span><span class="p">:</span>
                 <span class="n">img</span><span class="o">.</span><span class="n">set_clim</span><span class="p">(</span><span class="n">axmin</span><span class="p">,</span> <span class="n">axmax</span><span class="p">)</span>
-            <span class="n">ax</span><span class="o">.</span><span class="n">set_title</span><span class="p">(</span>
-                <span class="sa">f</span><span class="s2">&quot;Plane[</span><span class="si">{</span><span class="n">start</span><span class="si">}</span><span class="s2">:</span><span class="si">{</span><span class="n">stop</span><span class="si">}</span><span class="s2">]&quot;</span><span class="p">,</span>
-            <span class="p">)</span>
+            <span class="n">ax</span><span class="o">.</span><span class="n">set_title</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;Plane[</span><span class="si">{</span><span class="n">start</span><span class="si">}</span><span class="s2">:</span><span class="si">{</span><span class="n">stop</span><span class="si">}</span><span class="s2">]&quot;</span><span class="p">)</span>
             <span class="n">fig</span><span class="o">.</span><span class="n">canvas</span><span class="o">.</span><span class="n">draw_idle</span><span class="p">()</span>
 
             <span class="n">plane_slider</span><span class="o">.</span><span class="n">close</span><span class="p">()</span>
@@ -745,13 +741,13 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.select_slice">[docs]</a>
     <span class="k">def</span> <span class="nf">select_slice</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">selector</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">slice</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span> <span class="nb">int</span><span class="p">],</span>
+        <span class="n">selector</span><span class="p">:</span> <span class="nb">slice</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="nb">int</span><span class="p">,</span>
         <span class="n">axis</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">2</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Select (hyper)slice from a (hyper)volume.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            selector (Union[slice, List[int], int]):</span>
+<span class="sd">            selector (slice | list[int] | int):</span>
 <span class="sd">                Selector along the specified axis to extract the slice (image). Use</span>
 <span class="sd">                the construct slice(start, stop, step) to select a range of images</span>
 <span class="sd">                and sum them. Use an integer to specify only a particular slice.</span>
@@ -798,7 +794,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">                Option to calculate symmetry scores. Defaults to False.</span>
 <span class="sd">            **kwds: Keyword arguments.</span>
 
-<span class="sd">                - **symtype** (str): Type of symmetry scores to calculate</span>
+<span class="sd">                - **symtype** (str): Type of symmetry scores to calculte</span>
 <span class="sd">                  if symscores is True. Defaults to &quot;rotation&quot;.</span>
 
 <span class="sd">        Raises:</span>
@@ -1070,7 +1066,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="n">use_center</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">fixed_center</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">interp_order</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">1</span><span class="p">,</span>
-        <span class="n">ascale</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">list</span><span class="p">,</span> <span class="nb">tuple</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ascale</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="nb">list</span> <span class="o">|</span> <span class="nb">tuple</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
@@ -1088,13 +1084,13 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">            interp_order (int, optional):</span>
 <span class="sd">                Order of interpolation (see ``scipy.ndimage.map_coordinates()``).</span>
 <span class="sd">                Defaults to 1.</span>
-<span class="sd">            ascale: (Union[float, np.ndarray], optional): Scale parameter determining a relative</span>
-<span class="sd">                scale for each symmetry feature. If provided as single float, rotsym has to be 4.</span>
-<span class="sd">                This parameter describes the relative scaling between the two orthogonal symmetry</span>
-<span class="sd">                directions (for an orthorhombic system). This requires the correction points to be</span>
-<span class="sd">                located along the principal axes (X/Y points of the Brillouin zone). Otherwise, an</span>
-<span class="sd">                array with ``rotsym`` elements is expected, containing relative scales for each</span>
-<span class="sd">                feature. Defaults to an array of equal scales.</span>
+<span class="sd">            ascale: (float | list | tuple | np.ndarray, optional): Scale parameter determining a</span>
+<span class="sd">                relative scale for each symmetry feature. If provided as single float, rotsym has</span>
+<span class="sd">                to be 4. This parameter describes the relative scaling between the two orthogonal</span>
+<span class="sd">                symmetry directions (for an orthorhombic system). This requires the correction</span>
+<span class="sd">                points to be located along the principal axes (X/Y points of the Brillouin zone).</span>
+<span class="sd">                Otherwise, an array with ``rotsym`` elements is expected, containing relative</span>
+<span class="sd">                scales for each feature. Defaults to an array of equal scales.</span>
 <span class="sd">            verbose (bool, optional): Option to report the used landmarks for correction.</span>
 <span class="sd">                Defaults to True.</span>
 <span class="sd">            **kwds: keyword arguments:</span>
@@ -1261,7 +1257,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="bp">self</span><span class="o">.</span><span class="n">slice_corrected</span> <span class="o">=</span> <span class="n">corrected_image</span>
 
         <span class="k">if</span> <span class="n">verbose</span><span class="p">:</span>
-            <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Calculated thin spline correction based on the following landmarks:&quot;</span><span class="p">)</span>
+            <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Calulated thin spline correction based on the following landmarks:&quot;</span><span class="p">)</span>
             <span class="nb">print</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;pouter: </span><span class="si">{</span><span class="bp">self</span><span class="o">.</span><span class="n">pouter</span><span class="si">}</span><span class="s2">&quot;</span><span class="p">)</span>
             <span class="k">if</span> <span class="n">use_center</span><span class="p">:</span>
                 <span class="nb">print</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;pcent: </span><span class="si">{</span><span class="bp">self</span><span class="o">.</span><span class="n">pcent</span><span class="si">}</span><span class="s2">&quot;</span><span class="p">)</span>
@@ -1375,7 +1371,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">                - rotation_auto.</span>
 <span class="sd">                - scaling.</span>
 <span class="sd">                - scaling_auto.</span>
-<span class="sd">                - homography.</span>
+<span class="sd">                - homomorphy.</span>
 
 <span class="sd">            keep (bool, optional): Option to keep the specified coordinate transform in</span>
 <span class="sd">                the class. Defaults to False.</span>
@@ -1495,7 +1491,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="p">)</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">slice_transformed</span> <span class="o">=</span> <span class="n">slice_transformed</span>
         <span class="k">else</span><span class="p">:</span>
-            <span class="c1"># if external image is provided, apply only the new additional transformation</span>
+            <span class="c1"># if external image is provided, apply only the new addional tranformation</span>
             <span class="n">slice_transformed</span> <span class="o">=</span> <span class="n">ndi</span><span class="o">.</span><span class="n">map_coordinates</span><span class="p">(</span>
                 <span class="n">image</span><span class="p">,</span>
                 <span class="p">[</span><span class="n">rdeform</span><span class="p">,</span> <span class="n">cdeform</span><span class="p">],</span>
@@ -1519,7 +1515,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.pose_adjustment">[docs]</a>
     <span class="k">def</span> <span class="nf">pose_adjustment</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">transformations</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">transformations</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">apply</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">reset</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
@@ -1531,7 +1527,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 
 <span class="sd">        Args:</span>
 <span class="sd">            transformations (dict, optional): Dictionary with transformations.</span>
-<span class="sd">                Defaults to self.transformations or config[&quot;momentum&quot;][&quot;transformations&quot;].</span>
+<span class="sd">                Defaults to self.transformations or config[&quot;momentum&quot;][&quot;transformtions&quot;].</span>
 <span class="sd">            apply (bool, optional):</span>
 <span class="sd">                Option to directly apply the provided transformations.</span>
 <span class="sd">                Defaults to False.</span>
@@ -1759,7 +1755,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="n">image</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">origin</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;lower&quot;</span><span class="p">,</span>
         <span class="n">cmap</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;terrain_r&quot;</span><span class="p">,</span>
-        <span class="n">figsize</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span><span class="mi">4</span><span class="p">,</span> <span class="mi">4</span><span class="p">),</span>
+        <span class="n">figsize</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span><span class="mi">4</span><span class="p">,</span> <span class="mi">4</span><span class="p">),</span>
         <span class="n">points</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">annotated</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">backend</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;matplotlib&quot;</span><span class="p">,</span>
@@ -1767,7 +1763,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
         <span class="n">scatterkwds</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="p">{},</span>
         <span class="n">cross</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">crosshair</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-        <span class="n">crosshair_radii</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="p">[</span><span class="mi">50</span><span class="p">,</span> <span class="mi">100</span><span class="p">,</span> <span class="mi">150</span><span class="p">],</span>
+        <span class="n">crosshair_radii</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="p">[</span><span class="mi">50</span><span class="p">,</span> <span class="mi">100</span><span class="p">,</span> <span class="mi">150</span><span class="p">],</span>
         <span class="n">crosshair_thickness</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">1</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">):</span>
@@ -1778,7 +1774,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">            origin (str, optional): Figure origin specification (&#39;lower&#39; or &#39;upper&#39;).</span>
 <span class="sd">                Defaults to &quot;lower&quot;.</span>
 <span class="sd">            cmap (str, optional):  Colormap specification. Defaults to &quot;terrain_r&quot;.</span>
-<span class="sd">            figsize (Tuple[int, int], optional): Figure size. Defaults to (4, 4).</span>
+<span class="sd">            figsize (tuple[int, int], optional): Figure size. Defaults to (4, 4).</span>
 <span class="sd">            points (dict, optional): Points for annotation. Defaults to None.</span>
 <span class="sd">            annotated (bool, optional): Option to add annotation. Defaults to False.</span>
 <span class="sd">            backend (str, optional): Visualization backend specification. Defaults to</span>
@@ -1795,7 +1791,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">                self.pcent. Defaults to False.</span>
 <span class="sd">            crosshair (bool, optional): Display option to plot circles around center</span>
 <span class="sd">                self.pcent. Works only in bokeh backend. Defaults to False.</span>
-<span class="sd">            crosshair_radii (List[int], optional): Pixel radii of circles to plot when</span>
+<span class="sd">            crosshair_radii (list[int], optional): Pixel radii of circles to plot when</span>
 <span class="sd">                crosshair option is activated. Defaults to [50, 100, 150].</span>
 <span class="sd">            crosshair_thickness (int, optional): Thickness of crosshair circles.</span>
 <span class="sd">                Defaults to 1.</span>
@@ -1814,7 +1810,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="n">txtsize</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;textsize&quot;</span><span class="p">,</span> <span class="mi">12</span><span class="p">)</span>
 
         <span class="k">if</span> <span class="n">backend</span> <span class="o">==</span> <span class="s2">&quot;matplotlib&quot;</span><span class="p">:</span>
-            <span class="n">fig</span><span class="p">,</span> <span class="n">ax</span> <span class="o">=</span> <span class="n">plt</span><span class="o">.</span><span class="n">subplots</span><span class="p">(</span><span class="n">figsize</span><span class="o">=</span><span class="n">figsize</span><span class="p">)</span>
+            <span class="n">fig_plt</span><span class="p">,</span> <span class="n">ax</span> <span class="o">=</span> <span class="n">plt</span><span class="o">.</span><span class="n">subplots</span><span class="p">(</span><span class="n">figsize</span><span class="o">=</span><span class="n">figsize</span><span class="p">)</span>
             <span class="n">ax</span><span class="o">.</span><span class="n">imshow</span><span class="p">(</span><span class="n">image</span><span class="o">.</span><span class="n">T</span><span class="p">,</span> <span class="n">origin</span><span class="o">=</span><span class="n">origin</span><span class="p">,</span> <span class="n">cmap</span><span class="o">=</span><span class="n">cmap</span><span class="p">,</span> <span class="o">**</span><span class="n">imkwds</span><span class="p">)</span>
 
             <span class="k">if</span> <span class="n">cross</span><span class="p">:</span>
@@ -1909,30 +1905,31 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.select_k_range">[docs]</a>
     <span class="k">def</span> <span class="nf">select_k_range</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">point_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">point_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">point_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">point_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">k_distance</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
+        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
         <span class="n">equiscale</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">apply</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="p">):</span>
-<span class="w">        </span><span class="sd">&quot;&quot;&quot;Interactive selection function for features for the Momentum axes calibration. It allows</span>
-<span class="sd">        the user to select the pixel positions of two symmetry points (a and b) and the k-space</span>
-<span class="sd">        distance of the two. Alternatively, the coordinates of both points can be provided. See the</span>
-<span class="sd">        equiscale option for details on the specifications of point coordinates.</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;Interactive selection function for features for the Momentum axes calibra-</span>
+<span class="sd">        tion. It allows the user to select the pixel positions of two symmetry points</span>
+<span class="sd">        (a and b) and the k-space distance of the two. Alternatively, the corrdinates</span>
+<span class="sd">        of both points can be provided. See the equiscale option for details on the</span>
+<span class="sd">        specifications of point coordinates.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            point_a (Union[np.ndarray, List[int]], optional): Pixel coordinates of the</span>
+<span class="sd">            point_a (np.ndarray | list[int], optional): Pixel coordinates of the</span>
 <span class="sd">                symmetry point a.</span>
-<span class="sd">            point_b (Union[np.ndarray, List[int]], optional): Pixel coordinates of the</span>
+<span class="sd">            point_b (np.ndarray | list[int], optional): Pixel coordinates of the</span>
 <span class="sd">                symmetry point b. Defaults to the center pixel of the image, defined by</span>
 <span class="sd">                config[&quot;momentum&quot;][&quot;center_pixel&quot;].</span>
 <span class="sd">            k_distance (float, optional): The known momentum space distance between the</span>
 <span class="sd">                two symmetry points.</span>
-<span class="sd">            k_coord_a (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_a (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the symmetry points a. Only valid if equiscale=False.</span>
-<span class="sd">            k_coord_b (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_b (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the symmetry points b. Only valid if equiscale=False. Defaults to</span>
 <span class="sd">                the k-space center np.array([0.0, 0.0]).</span>
 <span class="sd">            equiscale (bool, optional): Option to adopt equal scale along both the x</span>
@@ -2062,11 +2059,11 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.calibrate">[docs]</a>
     <span class="k">def</span> <span class="nf">calibrate</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">point_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]],</span>
-        <span class="n">point_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]],</span>
+        <span class="n">point_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
+        <span class="n">point_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
         <span class="n">k_distance</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
+        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
         <span class="n">equiscale</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">image</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
@@ -2077,16 +2074,16 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">        of point coordinates.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            point_a (Union[np.ndarray, List[int]], optional): Pixel coordinates of the</span>
+<span class="sd">            point_a (np.ndarray | list[int], optional): Pixel coordinates of the</span>
 <span class="sd">                symmetry point a.</span>
-<span class="sd">            point_b (Union[np.ndarray, List[int]], optional): Pixel coordinates of the</span>
+<span class="sd">            point_b (np.ndarray | list[int], optional): Pixel coordinates of the</span>
 <span class="sd">                symmetry point b. Defaults to the center pixel of the image, defined by</span>
 <span class="sd">                config[&quot;momentum&quot;][&quot;center_pixel&quot;].</span>
 <span class="sd">            k_distance (float, optional): The known momentum space distance between the</span>
 <span class="sd">                two symmetry points.</span>
-<span class="sd">            k_coord_a (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_a (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the symmetry points a. Only valid if equiscale=False.</span>
-<span class="sd">            k_coord_b (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_b (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the symmetry points b. Only valid if equiscale=False. Defaults to</span>
 <span class="sd">                the k-space center np.array([0.0, 0.0]).</span>
 <span class="sd">            equiscale (bool, optional): Option to adopt equal scale along both the x</span>
@@ -2182,20 +2179,20 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.apply_corrections">[docs]</a>
     <span class="k">def</span> <span class="nf">apply_corrections</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">x_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">y_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">new_x_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">new_y_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Calculate and replace the X and Y values with their distortion-corrected</span>
 <span class="sd">        version.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to apply</span>
-<span class="sd">                the distortion correction to.</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to apply</span>
+<span class="sd">                the distotion correction to.</span>
 <span class="sd">            x_column (str, optional): Label of the &#39;X&#39; column before momentum</span>
 <span class="sd">                distortion correction. Defaults to config[&quot;momentum&quot;][&quot;x_column&quot;].</span>
 <span class="sd">            y_column (str, optional): Label of the &#39;Y&#39; column before momentum</span>
@@ -2217,7 +2214,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">                Additional keyword arguments are passed to ``apply_dfield``.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[Union[pd.DataFrame, dask.dataframe.DataFrame], dict]: Dataframe with</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: Dataframe with</span>
 <span class="sd">            added columns and momentum correction metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">x_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -2274,7 +2271,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">        Returns:</span>
 <span class="sd">            dict: generated correction metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
         <span class="k">if</span> <span class="nb">len</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">correction</span><span class="p">)</span> <span class="o">&gt;</span> <span class="mi">0</span><span class="p">:</span>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;correction&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">correction</span>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;correction&quot;</span><span class="p">][</span><span class="s2">&quot;applied&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="kc">True</span>
@@ -2289,11 +2286,11 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;creation_date&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">datetime</span><span class="o">.</span><span class="n">now</span><span class="p">()</span><span class="o">.</span><span class="n">timestamp</span><span class="p">()</span>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;applied&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="kc">True</span>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;depends_on&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span>
-                <span class="s2">&quot;/entry/process/registration/transformations/rot_z&quot;</span>
+                <span class="s2">&quot;/entry/process/registration/tranformations/rot_z&quot;</span>
                 <span class="k">if</span> <span class="s2">&quot;angle&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;angle&quot;</span><span class="p">]</span>
-                <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/transformations/trans_y&quot;</span>
+                <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/tranformations/trans_y&quot;</span>
                 <span class="k">if</span> <span class="s2">&quot;xtrans&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;xtrans&quot;</span><span class="p">]</span>
-                <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/transformations/trans_x&quot;</span>
+                <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/tranformations/trans_x&quot;</span>
                 <span class="k">if</span> <span class="s2">&quot;ytrans&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;ytrans&quot;</span><span class="p">]</span>
                 <span class="k">else</span> <span class="s2">&quot;.&quot;</span>
             <span class="p">)</span>
@@ -2317,7 +2314,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
                     <span class="p">[</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">1.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">],</span>
                 <span class="p">)</span>
                 <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;trans_y&quot;</span><span class="p">][</span><span class="s2">&quot;depends_on&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span>
-                    <span class="s2">&quot;/entry/process/registration/transformations/trans_x&quot;</span>
+                    <span class="s2">&quot;/entry/process/registration/tranformations/trans_x&quot;</span>
                     <span class="k">if</span> <span class="s2">&quot;ytrans&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;ytrans&quot;</span><span class="p">]</span>
                     <span class="k">else</span> <span class="s2">&quot;.&quot;</span>
                 <span class="p">)</span>
@@ -2333,9 +2330,9 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
                     <span class="p">(</span><span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;center&quot;</span><span class="p">],</span> <span class="p">[</span><span class="mf">0.0</span><span class="p">]),</span>
                 <span class="p">)</span>
                 <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;rot_z&quot;</span><span class="p">][</span><span class="s2">&quot;depends_on&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="p">(</span>
-                    <span class="s2">&quot;/entry/process/registration/transformations/trans_y&quot;</span>
+                    <span class="s2">&quot;/entry/process/registration/tranformations/trans_y&quot;</span>
                     <span class="k">if</span> <span class="s2">&quot;xtrans&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;xtrans&quot;</span><span class="p">]</span>
-                    <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/transformations/trans_x&quot;</span>
+                    <span class="k">else</span> <span class="s2">&quot;/entry/process/registration/tranformations/trans_x&quot;</span>
                     <span class="k">if</span> <span class="s2">&quot;ytrans&quot;</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">]</span> <span class="ow">and</span> <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;registration&quot;</span><span class="p">][</span><span class="s2">&quot;ytrans&quot;</span><span class="p">]</span>
                     <span class="k">else</span> <span class="s2">&quot;.&quot;</span>
                 <span class="p">)</span>
@@ -2347,19 +2344,19 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.MomentumCorrector.append_k_axis">[docs]</a>
     <span class="k">def</span> <span class="nf">append_k_axis</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+        <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
         <span class="n">x_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">y_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">new_x_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">new_y_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">calibration</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Calculate and append the k axis coordinates (kx, ky) to the events dataframe.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to apply the</span>
-<span class="sd">                distortion correction to.</span>
+<span class="sd">            df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to apply the</span>
+<span class="sd">                distotion correction to.</span>
 <span class="sd">            x_column (str, optional): Label of the source &#39;X&#39; column.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;corrected_x_column&quot;] or</span>
 <span class="sd">                config[&quot;momentum&quot;][&quot;x_column&quot;] (whichever is present).</span>
@@ -2376,7 +2373,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">                to the calibration dictionary.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[Union[pd.DataFrame, dask.dataframe.DataFrame], dict]: Dataframe with</span>
+<span class="sd">            tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]: Dataframe with</span>
 <span class="sd">            added columns and momentum calibration metadata dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">x_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -2406,7 +2403,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
             <span class="n">calibration</span><span class="p">[</span><span class="s2">&quot;creation_date&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">datetime</span><span class="o">.</span><span class="n">now</span><span class="p">()</span><span class="o">.</span><span class="n">timestamp</span><span class="p">()</span>
 
         <span class="k">try</span><span class="p">:</span>
-            <span class="p">(</span><span class="n">df</span><span class="p">[</span><span class="n">new_x_column</span><span class="p">],</span> <span class="n">df</span><span class="p">[</span><span class="n">new_y_column</span><span class="p">])</span> <span class="o">=</span> <span class="n">detector_coordinates_2_k_coordinates</span><span class="p">(</span>
+            <span class="p">(</span><span class="n">df</span><span class="p">[</span><span class="n">new_x_column</span><span class="p">],</span> <span class="n">df</span><span class="p">[</span><span class="n">new_y_column</span><span class="p">])</span> <span class="o">=</span> <span class="n">detector_coordiantes_2_k_koordinates</span><span class="p">(</span>
                 <span class="n">r_det</span><span class="o">=</span><span class="n">df</span><span class="p">[</span><span class="n">x_column</span><span class="p">],</span>
                 <span class="n">c_det</span><span class="o">=</span><span class="n">df</span><span class="p">[</span><span class="n">y_column</span><span class="p">],</span>
                 <span class="n">r_start</span><span class="o">=</span><span class="n">calibration</span><span class="p">[</span><span class="s2">&quot;rstart&quot;</span><span class="p">],</span>
@@ -2442,7 +2439,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">calibration</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">calibration</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">calibration</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
         <span class="k">try</span><span class="p">:</span>
             <span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;creation_date&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="n">calibration</span><span class="p">[</span><span class="s2">&quot;creation_date&quot;</span><span class="p">]</span>
         <span class="k">except</span> <span class="ne">KeyError</span><span class="p">:</span>
@@ -2469,7 +2466,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">        cmap_name (str): Name of the colormap/palette.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        list: List of colors in hex representation (a bokeh palette).</span>
+<span class="sd">        list: List of colors in hex representation (a bokoeh palette).</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">if</span> <span class="n">cmap_name</span> <span class="ow">in</span> <span class="n">bp</span><span class="o">.</span><span class="n">all_palettes</span><span class="o">.</span><span class="n">keys</span><span class="p">():</span>
         <span class="n">palette_func</span> <span class="o">=</span> <span class="nb">getattr</span><span class="p">(</span><span class="n">bp</span><span class="p">,</span> <span class="n">cmap_name</span><span class="p">)</span>
@@ -2488,38 +2485,33 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.dictmerge">[docs]</a>
 <span class="k">def</span> <span class="nf">dictmerge</span><span class="p">(</span>
     <span class="n">main_dict</span><span class="p">:</span> <span class="nb">dict</span><span class="p">,</span>
-    <span class="n">other_entries</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">dict</span><span class="p">],</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">dict</span><span class="p">],</span> <span class="nb">dict</span><span class="p">],</span>
+    <span class="n">other_entries</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">dict</span><span class="p">]</span> <span class="o">|</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">dict</span><span class="p">]</span> <span class="o">|</span> <span class="nb">dict</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Merge a dictionary with other dictionaries.</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        main_dict (dict): Main dictionary.</span>
-<span class="sd">        other_entries (Union[List[dict], Tuple[dict], dict]):</span>
+<span class="sd">        other_entries (list[dict] | tuple[dict] | dict):</span>
 <span class="sd">            Other dictionary or composite dictionarized elements.</span>
 
 <span class="sd">    Returns:</span>
 <span class="sd">        dict: Merged dictionary.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
-    <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span>
-        <span class="n">other_entries</span><span class="p">,</span>
-        <span class="p">(</span>
-            <span class="nb">list</span><span class="p">,</span>
-            <span class="nb">tuple</span><span class="p">,</span>
-        <span class="p">),</span>
-    <span class="p">):</span>  <span class="c1"># Merge main_dict with a list or tuple of dictionaries</span>
+    <span class="c1"># Merge main_dict with a list or tuple of dictionaries</span>
+    <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">other_entries</span><span class="p">,</span> <span class="p">(</span><span class="nb">list</span><span class="p">,</span> <span class="nb">tuple</span><span class="p">)):</span>
         <span class="k">for</span> <span class="n">oth</span> <span class="ow">in</span> <span class="n">other_entries</span><span class="p">:</span>
             <span class="n">main_dict</span> <span class="o">=</span> <span class="p">{</span><span class="o">**</span><span class="n">main_dict</span><span class="p">,</span> <span class="o">**</span><span class="n">oth</span><span class="p">}</span>
-
-    <span class="k">elif</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">other_entries</span><span class="p">,</span> <span class="nb">dict</span><span class="p">):</span>  <span class="c1"># Merge D with a single dictionary</span>
+    <span class="c1"># Merge D with a single dictionary</span>
+    <span class="k">elif</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">other_entries</span><span class="p">,</span> <span class="nb">dict</span><span class="p">):</span>
         <span class="n">main_dict</span> <span class="o">=</span> <span class="p">{</span><span class="o">**</span><span class="n">main_dict</span><span class="p">,</span> <span class="o">**</span><span class="n">other_entries</span><span class="p">}</span>
 
     <span class="k">return</span> <span class="n">main_dict</span></div>
 
 
 
-<div class="viewcode-block" id="detector_coordinates_2_k_coordinates">
-<a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.detector_coordinates_2_k_coordinates">[docs]</a>
-<span class="k">def</span> <span class="nf">detector_coordinates_2_k_coordinates</span><span class="p">(</span>
+<div class="viewcode-block" id="detector_coordiantes_2_k_koordinates">
+<a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.detector_coordiantes_2_k_koordinates">[docs]</a>
+<span class="k">def</span> <span class="nf">detector_coordiantes_2_k_koordinates</span><span class="p">(</span>
     <span class="n">r_det</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">c_det</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">r_start</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
@@ -2530,8 +2522,8 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
     <span class="n">c_conversion</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">r_step</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">c_step</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Conversion from detector coordinates (r_det, c_det) to momentum coordinates</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]:</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Conversion from detector coordinates (rdet, cdet) to momentum coordinates</span>
 <span class="sd">    (kr, kc).</span>
 
 <span class="sd">    Args:</span>
@@ -2547,7 +2539,7 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="sd">        c_step (float): Column stepping factor.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[float, float]: Converted momentum space row/column coordinates.</span>
+<span class="sd">        tuple[float, float]: Converted momentum space row/column coordinates.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">r_det0</span> <span class="o">=</span> <span class="n">r_start</span> <span class="o">+</span> <span class="n">r_step</span> <span class="o">*</span> <span class="n">r_center</span>
     <span class="n">c_det0</span> <span class="o">=</span> <span class="n">c_start</span> <span class="o">+</span> <span class="n">c_step</span> <span class="o">*</span> <span class="n">c_center</span>
@@ -2561,30 +2553,30 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="apply_dfield">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.apply_dfield">[docs]</a>
 <span class="k">def</span> <span class="nf">apply_dfield</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">dfield</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">x_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">y_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">new_x_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">new_y_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="n">detector_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">],</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="n">detector_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Application of the inverse displacement-field to the dataframe coordinates.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to apply the</span>
-<span class="sd">            distortion correction to.</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to apply the</span>
+<span class="sd">            distotion correction to.</span>
 <span class="sd">        dfield (np.ndarray): The distortion correction field. 3D matrix,</span>
 <span class="sd">            with column and row distortion fields stacked along the first dimension.</span>
 <span class="sd">        x_column (str): Label of the &#39;X&#39; source column.</span>
 <span class="sd">        y_column (str): Label of the &#39;Y&#39; source column.</span>
 <span class="sd">        new_x_column (str): Label of the &#39;X&#39; destination column.</span>
 <span class="sd">        new_y_column (str): Label of the &#39;Y&#39; destination column.</span>
-<span class="sd">        detector_ranges (List[Tuple]): tuple of pixel ranges of the detector x/y</span>
+<span class="sd">        detector_ranges (list[tuple]): tuple of pixel ranges of the detector x/y</span>
 <span class="sd">            coordinates</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: dataframe with added columns</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: dataframe with added columns</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">x</span> <span class="o">=</span> <span class="n">df</span><span class="p">[</span><span class="n">x_column</span><span class="p">]</span>
     <span class="n">y</span> <span class="o">=</span> <span class="n">df</span><span class="p">[</span><span class="n">y_column</span><span class="p">]</span>
@@ -2605,18 +2597,18 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">generate_inverse_dfield</span><span class="p">(</span>
     <span class="n">rdeform_field</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
     <span class="n">cdeform_field</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
-    <span class="n">bin_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">],</span>
-    <span class="n">detector_ranges</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">],</span>
+    <span class="n">bin_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
+    <span class="n">detector_ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Generate inverse deformation field using interpolation with griddata.</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Generate inverse deformation field using inperpolation with griddata.</span>
 <span class="sd">    Assuming the binning range of the input ``rdeform_field`` and ``cdeform_field``</span>
 <span class="sd">    covers the whole detector.</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        rdeform_field (np.ndarray): Row-wise deformation field.</span>
 <span class="sd">        cdeform_field (np.ndarray): Column-wise deformation field.</span>
-<span class="sd">        bin_ranges (List[Tuple]): Detector ranges of the binned coordinates.</span>
-<span class="sd">        detector_ranges (List[Tuple]): Ranges of detector coordinates to interpolate to.</span>
+<span class="sd">        bin_ranges (list[tuple]): Detector ranges of the binned coordinates.</span>
+<span class="sd">        detector_ranges (list[tuple]): Ranges of detector coordinates to interpolate to.</span>
 
 <span class="sd">    Returns:</span>
 <span class="sd">        np.ndarray: The calculated inverse deformation field (row/column)</span>
@@ -2680,14 +2672,14 @@ <h1>Source code for sed.calibrator.momentum</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="load_dfield">
 <a class="viewcode-back" href="../../../sed/calibrator.html#sed.calibrator.momentum.load_dfield">[docs]</a>
-<span class="k">def</span> <span class="nf">load_dfield</span><span class="p">(</span><span class="n">file</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="k">def</span> <span class="nf">load_dfield</span><span class="p">(</span><span class="n">file</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Load inverse dfield from file</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        file (str): Path to file containing the inverse dfield</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        np.ndarray: the loaded inverse deformation field</span>
+<span class="sd">        tuple[np.ndarray, np.ndarray]: the loaded inverse row and column deformation fields</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">rdeform_field</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
     <span class="n">cdeform_field</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span>
diff --git a/sed/latest/_modules/sed/core/config.html b/sed/latest/_modules/sed/core/config.html
index 26a585d..90151e0 100644
--- a/sed/latest/_modules/sed/core/config.html
+++ b/sed/latest/_modules/sed/core/config.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.core.config &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.core.config &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,13 +448,14 @@
   <h1>Source code for sed.core.config</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains a config library for loading yaml/json files into dicts</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">copy</span>
 <span class="kn">import</span> <span class="nn">json</span>
 <span class="kn">import</span> <span class="nn">os</span>
 <span class="kn">import</span> <span class="nn">platform</span>
 <span class="kn">from</span> <span class="nn">importlib.util</span> <span class="kn">import</span> <span class="n">find_spec</span>
 <span class="kn">from</span> <span class="nn">pathlib</span> <span class="kn">import</span> <span class="n">Path</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">yaml</span>
 <span class="kn">from</span> <span class="nn">platformdirs</span> <span class="kn">import</span> <span class="n">user_config_path</span>
@@ -467,14 +468,11 @@ <h1>Source code for sed.core.config</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="parse_config">
 <a class="viewcode-back" href="../../../sed/config.html#sed.core.config.parse_config">[docs]</a>
 <span class="k">def</span> <span class="nf">parse_config</span><span class="p">(</span>
-    <span class="n">config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">dict</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">folder_config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">dict</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">user_config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">dict</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">system_config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">dict</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">default_config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span>
-        <span class="nb">dict</span><span class="p">,</span>
-        <span class="nb">str</span><span class="p">,</span>
-    <span class="p">]</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;</span><span class="si">{</span><span class="n">package_dir</span><span class="si">}</span><span class="s2">/config/default.yaml&quot;</span><span class="p">,</span>
+    <span class="n">config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">folder_config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">user_config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">system_config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">default_config</span><span class="p">:</span> <span class="p">(</span><span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span><span class="p">)</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;</span><span class="si">{</span><span class="n">package_dir</span><span class="si">}</span><span class="s2">/config/default.yaml&quot;</span><span class="p">,</span>
     <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Load the config dictionary from a file, or pass the provided config dictionary.</span>
@@ -484,21 +482,21 @@ <h1>Source code for sed.core.config</h1><div class="highlight"><pre>
 <span class="sd">    can be also passed as optional arguments (file path strings or dictionaries).</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        config (Union[dict, str], optional): config dictionary or file path.</span>
+<span class="sd">        config (dict | str, optional): config dictionary or file path.</span>
 <span class="sd">                Files can be *json* or *yaml*. Defaults to None.</span>
-<span class="sd">        folder_config (Union[ dict, str, ], optional): working-folder-based config dictionary</span>
+<span class="sd">        folder_config (dict | str, optional): working-folder-based config dictionary</span>
 <span class="sd">            or file path. The loaded dictionary is completed with the folder-based values,</span>
 <span class="sd">            taking preference over user, system and default values. Defaults to the file</span>
 <span class="sd">            &quot;sed_config.yaml&quot; in the current working directory.</span>
-<span class="sd">        user_config (Union[ dict, str, ], optional): user-based config dictionary</span>
+<span class="sd">        user_config (dict | str, optional): user-based config dictionary</span>
 <span class="sd">            or file path. The loaded dictionary is completed with the user-based values,</span>
 <span class="sd">            taking preference over system and default values.</span>
 <span class="sd">            Defaults to the file &quot;.sed/config.yaml&quot; in the current user&#39;s home directory.</span>
-<span class="sd">        system_config (Union[ dict, str, ], optional): system-wide config dictionary</span>
+<span class="sd">        system_config (dict | str, optional): system-wide config dictionary</span>
 <span class="sd">            or file path. The loaded dictionary is completed with the system-wide values,</span>
 <span class="sd">            taking preference over default values. Defaults to the file &quot;/etc/sed/config.yaml&quot;</span>
 <span class="sd">            on linux, and &quot;%ALLUSERSPROFILE%/sed/config.yaml&quot; on windows.</span>
-<span class="sd">        default_config (Union[ dict, str, ], optional): default config dictionary</span>
+<span class="sd">        default_config (dict | str, optional): default config dictionary</span>
 <span class="sd">            or file path. The loaded dictionary is completed with the default values.</span>
 <span class="sd">            Defaults to *package_dir*/config/default.yaml&quot;.</span>
 <span class="sd">        verbose (bool, optional): Option to report loaded config files. Defaults to True.</span>
@@ -631,10 +629,10 @@ <h1>Source code for sed.core.config</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">save_config</span><span class="p">(</span><span class="n">config_dict</span><span class="p">:</span> <span class="nb">dict</span><span class="p">,</span> <span class="n">config_path</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span> <span class="n">overwrite</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">):</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Function to save a given config dictionary to a json or yaml file. Normally, it loads any</span>
 <span class="sd">    existing file of the given name, and keeps any existing dictionary keys not present in the</span>
-<span class="sd">    provided dictionary. The overwrite option creates a fully empty dictionary first.</span>
+<span class="sd">    provided dictionary. The overwrite option creates a fully empty dictionry first.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        config_dict (dict): The dictionary to save.</span>
+<span class="sd">        config_dict (dict): The dictionry to save.</span>
 <span class="sd">        config_path (str): A string containing the path to the file where to save the dictionary</span>
 <span class="sd">            to.</span>
 <span class="sd">        overwrite (bool, optional): Option to overwrite an existing file with the given dictionary.</span>
diff --git a/sed/latest/_modules/sed/core/dfops.html b/sed/latest/_modules/sed/core/dfops.html
index 6637f74..c75fb61 100644
--- a/sed/latest/_modules/sed/core/dfops.html
+++ b/sed/latest/_modules/sed/core/dfops.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.core.dfops &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.core.dfops &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -451,9 +451,10 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="sd">&quot;&quot;&quot;</span>
 <span class="c1"># Note: some of the functions presented here were</span>
 <span class="c1"># inspired by https://github.com/mpes-kit/mpes</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Callable</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -464,30 +465,30 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="apply_jitter">
 <a class="viewcode-back" href="../../../sed/dfops.html#sed.core.dfops.apply_jitter">[docs]</a>
 <span class="k">def</span> <span class="nf">apply_jitter</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
-    <span class="n">cols</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]],</span>
-    <span class="n">cols_jittered</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">amps</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="mf">0.5</span><span class="p">,</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
+    <span class="n">cols</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
+    <span class="n">cols_jittered</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">amps</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="mf">0.5</span><span class="p">,</span>
     <span class="n">jitter_type</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;uniform&quot;</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Add jittering to one or more dataframe columns.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to add</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to add</span>
 <span class="sd">            noise/jittering to.</span>
-<span class="sd">        cols (Union[str, Sequence[str]]): Names of the columns to add jittering to.</span>
-<span class="sd">        cols_jittered (Union[str, Sequence[str]], optional): Names of the columns</span>
+<span class="sd">        cols (str | Sequence[str]): Names of the columns to add jittering to.</span>
+<span class="sd">        cols_jittered (str | Sequence[str], optional): Names of the columns</span>
 <span class="sd">            with added jitter. Defaults to None.</span>
-<span class="sd">        amps (Union[float, Sequence[float]], optional): Amplitude scalings for the</span>
+<span class="sd">        amps (float | Sequence[float], optional): Amplitude scalings for the</span>
 <span class="sd">            jittering noise. If one number is given, the same is used for all axes.</span>
-<span class="sd">            For normal noise, the added noise will have stdev [-amp, +amp], for</span>
+<span class="sd">            For normal noise, the added noise will have sdev [-amp, +amp], for</span>
 <span class="sd">            uniform noise it will cover the interval [-amp, +amp].</span>
 <span class="sd">            Defaults to 0.5.</span>
 <span class="sd">        jitter_type (str, optional): the type of jitter to add. &#39;uniform&#39; or &#39;normal&#39;</span>
 <span class="sd">            distributed noise. Defaults to &quot;uniform&quot;.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: dataframe with added columns.</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: dataframe with added columns.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">assert</span> <span class="n">cols</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">,</span> <span class="s2">&quot;cols needs to be provided!&quot;</span>
     <span class="k">assert</span> <span class="n">jitter_type</span> <span class="ow">in</span> <span class="p">(</span>
@@ -524,17 +525,17 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="drop_column">
 <a class="viewcode-back" href="../../../sed/dfops.html#sed.core.dfops.drop_column">[docs]</a>
 <span class="k">def</span> <span class="nf">drop_column</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
-    <span class="n">column_name</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]],</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
+    <span class="n">column_name</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Delete columns.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
-<span class="sd">        column_name (Union[str, Sequence[str]])): List of column names to be dropped.</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to use.</span>
+<span class="sd">        column_name (str | Sequence[str]): List of column names to be dropped.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: Dataframe with dropped columns.</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: Dataframe with dropped columns.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">out_df</span> <span class="o">=</span> <span class="n">df</span><span class="o">.</span><span class="n">drop</span><span class="p">(</span><span class="n">column_name</span><span class="p">,</span> <span class="n">axis</span><span class="o">=</span><span class="mi">1</span><span class="p">)</span>
 
@@ -545,15 +546,15 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="apply_filter">
 <a class="viewcode-back" href="../../../sed/dfops.html#sed.core.dfops.apply_filter">[docs]</a>
 <span class="k">def</span> <span class="nf">apply_filter</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">col</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">lower_bound</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="o">-</span><span class="n">np</span><span class="o">.</span><span class="n">inf</span><span class="p">,</span>
     <span class="n">upper_bound</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">inf</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Application of bound filters to a specified column (can be used consecutively).</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">        col (str): Name of the column to filter. Passing &quot;index&quot; for col will</span>
 <span class="sd">            filter on the index in each dataframe partition.</span>
 <span class="sd">        lower_bound (float, optional): The lower bound used in the filtering.</span>
@@ -562,7 +563,7 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="sd">            Defaults to np.inf.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: The filtered dataframe.</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: The filtered dataframe.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">df</span> <span class="o">=</span> <span class="n">df</span><span class="o">.</span><span class="n">copy</span><span class="p">()</span>
     <span class="k">if</span> <span class="n">col</span> <span class="o">==</span> <span class="s2">&quot;index&quot;</span><span class="p">:</span>
@@ -591,14 +592,14 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="sd">    timestamps in the dataframe.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">        df (dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">        time_stamps (np.ndarray): Time stamps of the values to add</span>
 <span class="sd">        data (np.ndarray): Values corresponding at the time stamps in time_stamps</span>
 <span class="sd">        dest_column (str): destination column name</span>
 <span class="sd">        time_stamp_column (str): Time stamp column name</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: Dataframe with added column</span>
+<span class="sd">        dask.dataframe.DataFrame: Dataframe with added column</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">if</span> <span class="n">time_stamp_column</span> <span class="ow">not</span> <span class="ow">in</span> <span class="n">df</span><span class="o">.</span><span class="n">columns</span><span class="p">:</span>
         <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;</span><span class="si">{</span><span class="n">time_stamp_column</span><span class="si">}</span><span class="s2"> not found in dataframe!&quot;</span><span class="p">)</span>
@@ -625,23 +626,23 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="map_columns_2d">
 <a class="viewcode-back" href="../../../sed/dfops.html#sed.core.dfops.map_columns_2d">[docs]</a>
 <span class="k">def</span> <span class="nf">map_columns_2d</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">map_2d</span><span class="p">:</span> <span class="n">Callable</span><span class="p">,</span>
     <span class="n">x_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">y_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Apply a 2-dimensional mapping simultaneously to two dimensions.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">        map_2d (Callable): 2D mapping function.</span>
 <span class="sd">        x_column (str): The X column of the dataframe to apply mapping to.</span>
 <span class="sd">        y_column (str): The Y column of the dataframe to apply mapping to.</span>
 <span class="sd">        **kwds: Additional arguments for the 2D mapping function.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: Dataframe with mapped columns.</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: Dataframe with mapped columns.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">new_x_column</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;new_x_column&quot;</span><span class="p">,</span> <span class="n">x_column</span><span class="p">)</span>
     <span class="n">new_y_column</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;new_y_column&quot;</span><span class="p">,</span> <span class="n">y_column</span><span class="p">)</span>
@@ -661,7 +662,7 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">forward_fill_lazy</span><span class="p">(</span>
     <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">columns</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">before</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="s2">&quot;max&quot;</span><span class="p">,</span>
+    <span class="n">before</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">int</span> <span class="o">=</span> <span class="s2">&quot;max&quot;</span><span class="p">,</span>
     <span class="n">compute_lengths</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">iterations</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">2</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
@@ -669,14 +670,14 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 
 <span class="sd">    Allows forward filling between partitions. This is useful for dataframes</span>
 <span class="sd">    that have sparse data, such as those with many NaNs.</span>
-<span class="sd">    Running the forward filling multiple times can fix the issue of having</span>
+<span class="sd">    Runnin the forward filling multiple times can fix the issue of having</span>
 <span class="sd">    entire partitions consisting of NaNs. By default we run this twice, which</span>
 <span class="sd">    is enough to fix the issue for dataframes with no consecutive partitions of NaNs.</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        df (dask.dataframe.DataFrame): The dataframe to forward fill.</span>
-<span class="sd">        columns (list): The columns to forward fill. If None, fills all columns</span>
-<span class="sd">        before (int, str, optional): The number of rows to include before the current partition.</span>
+<span class="sd">        columns (list, optional): The columns to forward fill. If None, fills all columns</span>
+<span class="sd">        before (str | int, optional): The number of rows to include before the current partition.</span>
 <span class="sd">            if &#39;max&#39; it takes as much as possible from the previous partition, which is</span>
 <span class="sd">            the size of the smallest partition in the dataframe. Defaults to &#39;max&#39;.</span>
 <span class="sd">        compute_lengths (bool, optional): Whether to compute the length of each partition</span>
@@ -726,7 +727,7 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">backward_fill_lazy</span><span class="p">(</span>
     <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">columns</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">after</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="s2">&quot;max&quot;</span><span class="p">,</span>
+    <span class="n">after</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">int</span> <span class="o">=</span> <span class="s2">&quot;max&quot;</span><span class="p">,</span>
     <span class="n">compute_lengths</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">iterations</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">1</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
@@ -738,8 +739,8 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 
 <span class="sd">    Args:</span>
 <span class="sd">        df (dask.dataframe.DataFrame): The dataframe to forward fill.</span>
-<span class="sd">        columns (list): The columns to forward fill. If None, fills all columns</span>
-<span class="sd">        after (int, str, optional): The number of rows to include after the current partition.</span>
+<span class="sd">        columns (list, optional): The columns to forward fill. If None, fills all columns</span>
+<span class="sd">        after (str | int, optional): The number of rows to include after the current partition.</span>
 <span class="sd">            if &#39;max&#39; it takes as much as possible from the previous partition, which is</span>
 <span class="sd">            the size of the smallest partition in the dataframe. Defaults to &#39;max&#39;.</span>
 <span class="sd">        compute_lengths (bool, optional): Whether to compute the length of each partition</span>
@@ -789,10 +790,10 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">offset_by_other_columns</span><span class="p">(</span>
     <span class="n">df</span><span class="p">:</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">target_column</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="n">offset_columns</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]],</span>
-    <span class="n">weights</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]],</span>
-    <span class="n">reductions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">preserve_mean</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
+    <span class="n">offset_columns</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
+    <span class="n">weights</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">],</span>
+    <span class="n">reductions</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">preserve_mean</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">inplace</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
     <span class="n">rename</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
@@ -801,13 +802,13 @@ <h1>Source code for sed.core.dfops</h1><div class="highlight"><pre>
 <span class="sd">    Args:</span>
 <span class="sd">        df (dask.dataframe.DataFrame): Dataframe to use. Currently supports only dask dataframes.</span>
 <span class="sd">        target_column (str): Name of the column to apply the offset to.</span>
-<span class="sd">        offset_columns (str): Name of the column(s) to use for the offset.</span>
-<span class="sd">        weights (Union[float, Sequence[float]]): weights to apply on each column before adding.</span>
-<span class="sd">            Used also for changing sign.</span>
-<span class="sd">        reductions (Union[str, Sequence[str]], optional): Reduction function to use for the offset.</span>
+<span class="sd">        offset_columns (str | Sequence[str]): Name of the column(s) to use for the offset.</span>
+<span class="sd">        weights (float | Sequence[float]): weights to apply on each column before adding. Used also</span>
+<span class="sd">            for changing sign.</span>
+<span class="sd">        reductions (str | Sequence[str], optional): Reduction function to use for the offset.</span>
 <span class="sd">            Defaults to &quot;mean&quot;. Currently, only mean is supported.</span>
-<span class="sd">        preserve_mean (Union[bool, Sequence[bool]], optional): Whether to subtract the mean of the</span>
-<span class="sd">            offset column. Defaults to False. If a list is given, it must have the same length as</span>
+<span class="sd">        preserve_mean (bool | Sequence[bool], optional): Whether to subtract the mean of the offset</span>
+<span class="sd">            column. Defaults to False. If a list is given, it must have the same length as</span>
 <span class="sd">            offset_columns. Otherwise the value passed is used for all columns.</span>
 <span class="sd">        inplace (bool, optional): Whether to apply the offset inplace.</span>
 <span class="sd">            If false, the new column will have the name provided by rename, or has the same name as</span>
diff --git a/sed/latest/_modules/sed/core/metadata.html b/sed/latest/_modules/sed/core/metadata.html
index b852175..605e57c 100644
--- a/sed/latest/_modules/sed/core/metadata.html
+++ b/sed/latest/_modules/sed/core/metadata.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.core.metadata &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.core.metadata &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,10 +448,11 @@
   <h1>Source code for sed.core.metadata</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This is a metadata handler class from the sed package</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">json</span>
 <span class="kn">from</span> <span class="nn">copy</span> <span class="kn">import</span> <span class="n">deepcopy</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
 
 <span class="kn">from</span> <span class="nn">sed.core.config</span> <span class="kn">import</span> <span class="n">complete_dictionary</span>
 
@@ -460,18 +461,49 @@ <h1>Source code for sed.core.metadata</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/metadata.html#sed.core.metadata.MetaHandler">[docs]</a>
 <span class="k">class</span> <span class="nc">MetaHandler</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;This class provides methods to manipulate metadata dictionaries,</span>
-<span class="sd">    and give a nice representation of them.&quot;&quot;&quot;</span>
+<span class="sd">    and give a nice representation of them.</span>
+
+<span class="sd">    Args:</span>
+<span class="sd">        meta (dict, optional): Pre-existing metadata dict. Defaults to None.</span>
+<span class="sd">    &quot;&quot;&quot;</span>
 
-    <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">meta</span><span class="p">:</span> <span class="n">Dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
+    <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">meta</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;Constructor.</span>
+
+<span class="sd">        Args:</span>
+<span class="sd">            meta (dict, optional): Pre-existing metadata dict. Defaults to None.</span>
+<span class="sd">        &quot;&quot;&quot;</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">_m</span> <span class="o">=</span> <span class="n">deepcopy</span><span class="p">(</span><span class="n">meta</span><span class="p">)</span> <span class="k">if</span> <span class="n">meta</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span> <span class="k">else</span> <span class="p">{}</span>
 
-    <span class="k">def</span> <span class="fm">__getitem__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">val</span><span class="p">:</span> <span class="n">Any</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
+    <span class="k">def</span> <span class="fm">__getitem__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">val</span><span class="p">:</span> <span class="n">Any</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Any</span><span class="p">:</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;Function for getting a value</span>
+
+<span class="sd">        Args:</span>
+<span class="sd">            val (Any): Metadata category key</span>
+
+<span class="sd">        Returns:</span>
+<span class="sd">            Any: The metadata category entry.</span>
+<span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="bp">self</span><span class="o">.</span><span class="n">_m</span><span class="p">[</span><span class="n">val</span><span class="p">]</span>
 
     <span class="k">def</span> <span class="fm">__repr__</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;String representation function as json</span>
+
+<span class="sd">        Returns:</span>
+<span class="sd">            str: Summary string.</span>
+<span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="n">json</span><span class="o">.</span><span class="n">dumps</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_m</span><span class="p">,</span> <span class="n">default</span><span class="o">=</span><span class="nb">str</span><span class="p">,</span> <span class="n">indent</span><span class="o">=</span><span class="mi">4</span><span class="p">)</span>
 
-    <span class="k">def</span> <span class="nf">_format_attributes</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">attributes</span><span class="p">,</span> <span class="n">indent</span><span class="o">=</span><span class="mi">0</span><span class="p">):</span>
+    <span class="k">def</span> <span class="nf">_format_attributes</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">attributes</span><span class="p">:</span> <span class="nb">dict</span><span class="p">,</span> <span class="n">indent</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;Function to summarize a dictionary as html</span>
+
+<span class="sd">        Args:</span>
+<span class="sd">            attributes (dict): dictionary to summarize</span>
+<span class="sd">            indent (int, optional): Indentation value. Defaults to 0.</span>
+
+<span class="sd">        Returns:</span>
+<span class="sd">            str: Generated html summary.</span>
+<span class="sd">        &quot;&quot;&quot;</span>
         <span class="n">INDENT_FACTOR</span> <span class="o">=</span> <span class="mi">20</span>
         <span class="n">html</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span>
         <span class="k">for</span> <span class="n">key</span><span class="p">,</span> <span class="n">value</span> <span class="ow">in</span> <span class="n">attributes</span><span class="o">.</span><span class="n">items</span><span class="p">():</span>
@@ -492,11 +524,16 @@ <h1>Source code for sed.core.metadata</h1><div class="highlight"><pre>
         <span class="k">return</span> <span class="n">html</span>
 
     <span class="k">def</span> <span class="nf">_repr_html_</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;Summary function as html</span>
+
+<span class="sd">        Returns:</span>
+<span class="sd">            str: Generated html summary</span>
+<span class="sd">        &quot;&quot;&quot;</span>
         <span class="n">html</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_format_attributes</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_m</span><span class="p">)</span>
         <span class="k">return</span> <span class="n">html</span>
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">metadata</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Dict</span><span class="p">:</span>
+    <span class="k">def</span> <span class="nf">metadata</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Property returning the metadata dict.</span>
 <span class="sd">        Returns:</span>
 <span class="sd">            dict: Dictionary of metadata.</span>
@@ -516,7 +553,7 @@ <h1>Source code for sed.core.metadata</h1><div class="highlight"><pre>
 <span class="sd">        Args:</span>
 <span class="sd">            entry: dictionary containing the metadata to add.</span>
 <span class="sd">            name: name of the dictionary key under which to add entry.</span>
-<span class="sd">            duplicate_policy: Control behavior in case the &#39;name&#39; key</span>
+<span class="sd">            duplicate_policy: Control behaviour in case the &#39;name&#39; key</span>
 <span class="sd">                is already present in the metadata dictionary. Can be any of:</span>
 
 <span class="sd">                    - &quot;raise&quot;: raises a DuplicateEntryError.</span>
diff --git a/sed/latest/_modules/sed/core/processor.html b/sed/latest/_modules/sed/core/processor.html
index d1eadb6..51f9d29 100644
--- a/sed/latest/_modules/sed/core/processor.html
+++ b/sed/latest/_modules/sed/core/processor.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.core.processor &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.core.processor &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,15 +449,13 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains the core class for the sed package</span>
 
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">pathlib</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">datetime</span> <span class="kn">import</span> <span class="n">datetime</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span> <span class="k">as</span> <span class="nn">ddf</span>
 <span class="kn">import</span> <span class="nn">matplotlib.pyplot</span> <span class="k">as</span> <span class="nn">plt</span>
@@ -498,11 +496,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 <span class="sd">    Args:</span>
 <span class="sd">        metadata (dict, optional): Dict of external Metadata. Defaults to None.</span>
-<span class="sd">        config (Union[dict, str], optional): Config dictionary or config file name.</span>
+<span class="sd">        config (dict | str, optional): Config dictionary or config file name.</span>
 <span class="sd">            Defaults to None.</span>
-<span class="sd">        dataframe (Union[pd.DataFrame, ddf.DataFrame], optional): dataframe to load</span>
+<span class="sd">        dataframe (pd.DataFrame | ddf.DataFrame, optional): dataframe to load</span>
 <span class="sd">            into the class. Defaults to None.</span>
-<span class="sd">        files (List[str], optional): List of files to pass to the loader defined in</span>
+<span class="sd">        files (list[str], optional): List of files to pass to the loader defined in</span>
 <span class="sd">            the config. Defaults to None.</span>
 <span class="sd">        folder (str, optional): Folder containing files to pass to the loader</span>
 <span class="sd">            defined in the config. Defaults to None.</span>
@@ -518,9 +516,9 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">config</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">dict</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">folder</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">runs</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
@@ -532,11 +530,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 <span class="sd">        Args:</span>
 <span class="sd">            metadata (dict, optional): Dict of external Metadata. Defaults to None.</span>
-<span class="sd">            config (Union[dict, str], optional): Config dictionary or config file name.</span>
+<span class="sd">            config (dict | str, optional): Config dictionary or config file name.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            dataframe (Union[pd.DataFrame, ddf.DataFrame], optional): dataframe to load</span>
+<span class="sd">            dataframe (pd.DataFrame | ddf.DataFrame, optional): dataframe to load</span>
 <span class="sd">                into the class. Defaults to None.</span>
-<span class="sd">            files (List[str], optional): List of files to pass to the loader defined in</span>
+<span class="sd">            files (list[str], optional): List of files to pass to the loader defined in</span>
 <span class="sd">                the config. Defaults to None.</span>
 <span class="sd">            folder (str, optional): Folder containing files to pass to the loader</span>
 <span class="sd">                defined in the config. Defaults to None.</span>
@@ -564,9 +562,9 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="k">else</span><span class="p">:</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">verbose</span> <span class="o">=</span> <span class="n">verbose</span>
 
-        <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">_timed_dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">_files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">=</span> <span class="kc">None</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">_timed_dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">=</span> <span class="kc">None</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">_files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
 
         <span class="bp">self</span><span class="o">.</span><span class="n">_binned</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">_pre_binned</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">=</span> <span class="kc">None</span>
@@ -658,20 +656,20 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
     <span class="c1">#     self.view_event_histogram(dfpid=2, backend=&quot;matplotlib&quot;)</span>
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Accessor to the underlying dataframe.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[pd.DataFrame, ddf.DataFrame]: Dataframe object.</span>
+<span class="sd">            pd.DataFrame | ddf.DataFrame: Dataframe object.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span>
 
     <span class="nd">@dataframe</span><span class="o">.</span><span class="n">setter</span>
-    <span class="k">def</span> <span class="nf">dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]):</span>
+    <span class="k">def</span> <span class="nf">dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Setter for the underlying dataframe.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            dataframe (Union[pd.DataFrame, ddf.DataFrame]): The dataframe object to set.</span>
+<span class="sd">            dataframe (pd.DataFrame | ddf.DataFrame): The dataframe object to set.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="ow">not</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">dataframe</span><span class="p">,</span> <span class="p">(</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">))</span> <span class="ow">or</span> <span class="ow">not</span> <span class="nb">isinstance</span><span class="p">(</span>
             <span class="n">dataframe</span><span class="p">,</span>
@@ -685,20 +683,20 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span> <span class="o">=</span> <span class="n">dataframe</span>
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">timed_dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">timed_dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Accessor to the underlying timed_dataframe.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[pd.DataFrame, ddf.DataFrame]: Timed Dataframe object.</span>
+<span class="sd">            pd.DataFrame | ddf.DataFrame: Timed Dataframe object.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="bp">self</span><span class="o">.</span><span class="n">_timed_dataframe</span>
 
     <span class="nd">@timed_dataframe</span><span class="o">.</span><span class="n">setter</span>
-    <span class="k">def</span> <span class="nf">timed_dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">timed_dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]):</span>
+    <span class="k">def</span> <span class="nf">timed_dataframe</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">timed_dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Setter for the underlying timed dataframe.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            timed_dataframe (Union[pd.DataFrame, ddf.DataFrame]): The timed dataframe object to set</span>
+<span class="sd">            timed_dataframe (pd.DataFrame | ddf.DataFrame): The timed dataframe object to set</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="ow">not</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">timed_dataframe</span><span class="p">,</span> <span class="p">(</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">))</span> <span class="ow">or</span> <span class="ow">not</span> <span class="nb">isinstance</span><span class="p">(</span>
             <span class="n">timed_dataframe</span><span class="p">,</span>
@@ -738,20 +736,20 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">config</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">config</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Getter attribute for the config dictionary</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Dict: The config dictionary.</span>
+<span class="sd">            dict: The config dictionary.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span>
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">files</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">files</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Getter attribute for the list of files</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            List[str]: The list of loaded files</span>
+<span class="sd">            list[str]: The list of loaded files</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="bp">self</span><span class="o">.</span><span class="n">_files</span>
 
@@ -784,7 +782,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Getter attribute for the normalization histogram</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            xr.DataArray: The normalization histogram</span>
+<span class="sd">            xr.DataArray: The normalizazion histogram</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="bp">self</span><span class="o">.</span><span class="n">_normalization_histogram</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span><span class="s2">&quot;No normalization histogram available, generate histogram first!&quot;</span><span class="p">)</span>
@@ -792,17 +790,17 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="SedProcessor.cpy">
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.cpy">[docs]</a>
-    <span class="k">def</span> <span class="nf">cpy</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">path</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]])</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]]:</span>
+    <span class="k">def</span> <span class="nf">cpy</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">path</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">])</span> <span class="o">-&gt;</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Function to mirror a list of files or a folder from a network drive to a</span>
 <span class="sd">        local storage. Returns either the original or the copied path to the given</span>
 <span class="sd">        path. The option to use this functionality is set by</span>
 <span class="sd">        config[&quot;core&quot;][&quot;use_copy_tool&quot;].</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            path (Union[str, List[str]]): Source path or path list.</span>
+<span class="sd">            path (str | list[str]): Source path or path list.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[str, List[str]]: Source or destination path or path list.</span>
+<span class="sd">            str | list[str]: Source or destination path or path list.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="bp">self</span><span class="o">.</span><span class="n">use_copy_tool</span><span class="p">:</span>
             <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">path</span><span class="p">,</span> <span class="nb">list</span><span class="p">):</span>
@@ -823,9 +821,9 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.load">[docs]</a>
     <span class="k">def</span> <span class="nf">load</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">dataframe</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">dataframe</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">folder</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">runs</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
@@ -834,11 +832,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Load tabular data of single events into the dataframe object in the class.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            dataframe (Union[pd.DataFrame, ddf.DataFrame], optional): data in tabular</span>
+<span class="sd">            dataframe (pd.DataFrame | ddf.DataFrame, optional): data in tabular</span>
 <span class="sd">                format. Accepts anything which can be interpreted by pd.DataFrame as</span>
 <span class="sd">                an input. Defaults to None.</span>
 <span class="sd">            metadata (dict, optional): Dict of external Metadata. Defaults to None.</span>
-<span class="sd">            files (List[str], optional): List of file paths to pass to the loader.</span>
+<span class="sd">            files (list[str], optional): List of file paths to pass to the loader.</span>
 <span class="sd">                Defaults to None.</span>
 <span class="sd">            runs (Sequence[str], optional): List of run identifiers to pass to the</span>
 <span class="sd">                loader. Defaults to None.</span>
@@ -883,7 +881,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
             <span class="p">)</span>
         <span class="k">elif</span> <span class="n">files</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">dataframe</span><span class="p">,</span> <span class="n">timed_dataframe</span><span class="p">,</span> <span class="n">metadata</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">loader</span><span class="o">.</span><span class="n">read_dataframe</span><span class="p">(</span>
-                <span class="n">files</span><span class="o">=</span><span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="bp">self</span><span class="o">.</span><span class="n">cpy</span><span class="p">(</span><span class="n">files</span><span class="p">)),</span>
+                <span class="n">files</span><span class="o">=</span><span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="bp">self</span><span class="o">.</span><span class="n">cpy</span><span class="p">(</span><span class="n">files</span><span class="p">)),</span>
                 <span class="n">metadata</span><span class="o">=</span><span class="n">metadata</span><span class="p">,</span>
                 <span class="n">collect_metadata</span><span class="o">=</span><span class="n">collect_metadata</span><span class="p">,</span>
                 <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
@@ -954,10 +952,10 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.bin_and_load_momentum_calibration">[docs]</a>
     <span class="k">def</span> <span class="nf">bin_and_load_momentum_calibration</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df_partitions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
-        <span class="n">axes</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">bins</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">df_partitions</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
+        <span class="n">axes</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">bins</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">plane</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
         <span class="n">width</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">5</span><span class="p">,</span>
         <span class="n">apply</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
@@ -968,13 +966,13 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        interactive view, and load it into the momentum corrector class.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df_partitions (Union[int, Sequence[int]], optional): Number of dataframe partitions</span>
+<span class="sd">            df_partitions (int | Sequence[int], optional): Number of dataframe partitions</span>
 <span class="sd">                to use for the initial binning. Defaults to 100.</span>
-<span class="sd">            axes (List[str], optional): Axes to bin.</span>
+<span class="sd">            axes (list[str], optional): Axes to bin.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;axes&quot;].</span>
-<span class="sd">            bins (List[int], optional): Bin numbers to use for binning.</span>
+<span class="sd">            bins (list[int], optional): Bin numbers to use for binning.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;bins&quot;].</span>
-<span class="sd">            ranges (List[Tuple], optional): Ranges to use for binning.</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): Ranges to use for binning.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;ranges&quot;].</span>
 <span class="sd">            plane (int, optional): Initial value for the plane slider. Defaults to 0.</span>
 <span class="sd">            width (int, optional): Initial value for the width slider. Defaults to 5.</span>
@@ -1009,7 +1007,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;2. Step of the distortion correction workflow: Define feature points in</span>
 <span class="sd">        momentum space. They can be either manually selected using a GUI tool, be</span>
-<span class="sd">        provided as list of feature points, or auto-generated using a</span>
+<span class="sd">        ptovided as list of feature points, or auto-generated using a</span>
 <span class="sd">        feature-detection algorithm.</span>
 
 <span class="sd">        Args:</span>
@@ -1061,7 +1059,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;3. Step of the distortion correction workflow: Generate the correction</span>
-<span class="sd">        function restoring the symmetry in the image using a splinewarp algorithm.</span>
+<span class="sd">        function restoring the symmetry in the image using a splinewarp algortihm.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            use_center (bool, optional): Option to use the position of the</span>
@@ -1150,7 +1148,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.pose_adjustment">[docs]</a>
     <span class="k">def</span> <span class="nf">pose_adjustment</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">transformations</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">transformations</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">apply</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">use_correction</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">reset</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
@@ -1163,8 +1161,8 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        the image.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            transformations (dict, optional): Dictionary with transformations.</span>
-<span class="sd">                Defaults to self.transformations or config[&quot;momentum&quot;][&quot;transformations&quot;].</span>
+<span class="sd">            transformations (dict[str, Any], optional): Dictionary with transformations.</span>
+<span class="sd">                Defaults to self.transformations or config[&quot;momentum&quot;][&quot;transformtions&quot;].</span>
 <span class="sd">            apply (bool, optional): Option to directly apply the provided</span>
 <span class="sd">                transformations. Defaults to False.</span>
 <span class="sd">            use_correction (bool, option): Whether to use the spline warp correction</span>
@@ -1183,7 +1181,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="k">if</span> <span class="n">verbose</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">verbose</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">verbose</span>
 
-        <span class="c1"># Generate homography as default if no distortion correction has been applied</span>
+        <span class="c1"># Generate homomorphy as default if no distortion correction has been applied</span>
         <span class="k">if</span> <span class="bp">self</span><span class="o">.</span><span class="n">mc</span><span class="o">.</span><span class="n">slice_corrected</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="k">if</span> <span class="bp">self</span><span class="o">.</span><span class="n">mc</span><span class="o">.</span><span class="n">slice</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
                 <span class="bp">self</span><span class="o">.</span><span class="n">mc</span><span class="o">.</span><span class="n">slice</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">zeros</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;momentum&quot;</span><span class="p">][</span><span class="s2">&quot;bins&quot;</span><span class="p">][</span><span class="mi">0</span><span class="p">:</span><span class="mi">2</span><span class="p">])</span>
@@ -1318,11 +1316,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.calibrate_momentum_axes">[docs]</a>
     <span class="k">def</span> <span class="nf">calibrate_momentum_axes</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">point_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">point_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">point_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">point_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">k_distance</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
+        <span class="n">k_coord_a</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">k_coord_b</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="mf">0.0</span><span class="p">,</span> <span class="mf">0.0</span><span class="p">]),</span>
         <span class="n">equiscale</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">apply</span><span class="o">=</span><span class="kc">False</span><span class="p">,</span>
     <span class="p">):</span>
@@ -1333,18 +1331,18 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        the points.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            point_a (Union[np.ndarray, List[int]]): Pixel coordinates of the first</span>
+<span class="sd">            point_a (np.ndarray | list[int], optional): Pixel coordinates of the first</span>
 <span class="sd">                point used for momentum calibration.</span>
-<span class="sd">            point_b (Union[np.ndarray, List[int]], optional): Pixel coordinates of the</span>
+<span class="sd">            point_b (np.ndarray | list[int], optional): Pixel coordinates of the</span>
 <span class="sd">                second point used for momentum calibration.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;center_pixel&quot;].</span>
 <span class="sd">            k_distance (float, optional): Momentum distance between point a and b.</span>
-<span class="sd">                Needs to be provided if no specific k-coordinates for the two points</span>
+<span class="sd">                Needs to be provided if no specific k-koordinates for the two points</span>
 <span class="sd">                are given. Defaults to None.</span>
-<span class="sd">            k_coord_a (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_a (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the first point used for calibration. Used if equiscale is False.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            k_coord_b (Union[np.ndarray, List[float]], optional): Momentum coordinate</span>
+<span class="sd">            k_coord_b (np.ndarray | list[float], optional): Momentum coordinate</span>
 <span class="sd">                of the second point used for calibration. Defaults to [0.0, 0.0].</span>
 <span class="sd">            equiscale (bool, optional): Option to apply different scales to kx and ky.</span>
 <span class="sd">                If True, the distance between points a and b, and the absolute</span>
@@ -1481,11 +1479,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">correction_type</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">amplitude</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">center</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">center</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">apply</span><span class="o">=</span><span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">):</span>
-<span class="w">        </span><span class="sd">&quot;&quot;&quot;1. step of the energy correction workflow: Opens an interactive plot to</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;1. step of the energy crrection workflow: Opens an interactive plot to</span>
 <span class="sd">        adjust the parameters for the TOF/energy correction. Also pre-bins the data if</span>
 <span class="sd">        they are not present yet.</span>
 
@@ -1501,7 +1499,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;correction_type&quot;].</span>
 <span class="sd">            amplitude (float, optional): Amplitude of the correction.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;correction&quot;][&quot;amplitude&quot;].</span>
-<span class="sd">            center (Tuple[float, float], optional): Center X/Y coordinates for the</span>
+<span class="sd">            center (tuple[float, float], optional): Center X/Y coordinates for the</span>
 <span class="sd">                correction. Defaults to config[&quot;energy&quot;][&quot;correction&quot;][&quot;center&quot;].</span>
 <span class="sd">            apply (bool, optional): Option to directly apply the provided or default</span>
 <span class="sd">                correction parameters. Defaults to False.</span>
@@ -1570,7 +1568,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">):</span>
-<span class="w">        </span><span class="sd">&quot;&quot;&quot;2. step of the energy correction workflow: Apply the energy correction</span>
+<span class="w">        </span><span class="sd">&quot;&quot;&quot;2. step of the energy correction workflow: Apply the enery correction</span>
 <span class="sd">        parameters stored in the class to the dataframe.</span>
 
 <span class="sd">        Args:</span>
@@ -1628,11 +1626,11 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.load_bias_series">[docs]</a>
     <span class="k">def</span> <span class="nf">load_bias_series</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">binned_data</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">,</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">data_files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">axes</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">bins</span><span class="p">:</span> <span class="n">List</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">binned_data</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">|</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">data_files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">axes</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">bins</span><span class="p">:</span> <span class="nb">list</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">biases</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">bias_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">normalize</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -1643,16 +1641,16 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        single-event files, or load binned bias/TOF traces.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            binned_data (Union[xr.DataArray, Tuple[np.ndarray, np.ndarray, np.ndarray]], optional):</span>
+<span class="sd">            binned_data (xr.DataArray | tuple[np.ndarray, np.ndarray, np.ndarray], optional):</span>
 <span class="sd">                Binned data If provided as DataArray, Needs to contain dimensions</span>
 <span class="sd">                config[&quot;dataframe&quot;][&quot;tof_column&quot;] and config[&quot;dataframe&quot;][&quot;bias_column&quot;]. If</span>
 <span class="sd">                provided as tuple, needs to contain elements tof, biases, traces.</span>
-<span class="sd">            data_files (List[str], optional): list of file paths to bin</span>
-<span class="sd">            axes (List[str], optional): bin axes.</span>
+<span class="sd">            data_files (list[str], optional): list of file paths to bin</span>
+<span class="sd">            axes (list[str], optional): bin axes.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
-<span class="sd">            bins (List, optional): number of bins.</span>
+<span class="sd">            bins (list, optional): number of bins.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;bins&quot;].</span>
-<span class="sd">            ranges (Sequence[Tuple[float, float]], optional): bin ranges.</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): bin ranges.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;ranges&quot;].</span>
 <span class="sd">            biases (np.ndarray, optional): Bias voltages used. If missing, bias</span>
 <span class="sd">                voltages are extracted from the data files.</span>
@@ -1693,7 +1691,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
         <span class="k">elif</span> <span class="n">data_files</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">:</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">ec</span><span class="o">.</span><span class="n">bin_data</span><span class="p">(</span>
-                <span class="n">data_files</span><span class="o">=</span><span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="bp">self</span><span class="o">.</span><span class="n">cpy</span><span class="p">(</span><span class="n">data_files</span><span class="p">)),</span>
+                <span class="n">data_files</span><span class="o">=</span><span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="bp">self</span><span class="o">.</span><span class="n">cpy</span><span class="p">(</span><span class="n">data_files</span><span class="p">)),</span>
                 <span class="n">axes</span><span class="o">=</span><span class="n">axes</span><span class="p">,</span>
                 <span class="n">bins</span><span class="o">=</span><span class="n">bins</span><span class="p">,</span>
                 <span class="n">ranges</span><span class="o">=</span><span class="n">ranges</span><span class="p">,</span>
@@ -1724,7 +1722,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.find_bias_peaks">[docs]</a>
     <span class="k">def</span> <span class="nf">find_bias_peaks</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Tuple</span><span class="p">],</span> <span class="n">Tuple</span><span class="p">],</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">|</span> <span class="nb">tuple</span><span class="p">,</span>
         <span class="n">ref_id</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">0</span><span class="p">,</span>
         <span class="n">infer_others</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">mode</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;replace&quot;</span><span class="p">,</span>
@@ -1740,7 +1738,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        Alternatively, a list of ranges for all traces can be provided.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            ranges (Union[List[Tuple], Tuple]): Tuple of TOF values indicating a range.</span>
+<span class="sd">            ranges (list[tuple] | tuple): Tuple of TOF values indicating a range.</span>
 <span class="sd">                Alternatively, a list of ranges for all traces can be given.</span>
 <span class="sd">            ref_id (int, optional): The id of the trace the range refers to.</span>
 <span class="sd">                Defaults to 0.</span>
@@ -1751,7 +1749,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">            radius (int, optional): Radius parameter for fast_dtw.</span>
 <span class="sd">                Defaults to config[&quot;energy&quot;][&quot;fastdtw_radius&quot;].</span>
 <span class="sd">            peak_window (int, optional): Peak_window parameter for the peak detection</span>
-<span class="sd">                algorithm. amount of points that have to have to behave monotonously</span>
+<span class="sd">                algorthm. amount of points that have to have to behave monotoneously</span>
 <span class="sd">                around a peak. Defaults to config[&quot;energy&quot;][&quot;peak_window&quot;].</span>
 <span class="sd">            apply (bool, optional): Option to directly apply the provided parameters.</span>
 <span class="sd">                Defaults to False.</span>
@@ -2000,10 +1998,10 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">add_energy_offset</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">constant</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">columns</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">weights</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">reductions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">preserve_mean</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">columns</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">weights</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">reductions</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">preserve_mean</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">preview</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
@@ -2011,15 +2009,16 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 <span class="sd">        Args:</span>
 <span class="sd">            constant (float, optional): The constant to shift the energy axis by.</span>
-<span class="sd">            columns (Union[str, Sequence[str]]): Name of the column(s) to apply the shift from.</span>
-<span class="sd">            weights (Union[float, Sequence[float]]): weights to apply to the columns.</span>
+<span class="sd">            columns (str | Sequence[str], optional): Name of the column(s) to apply the shift from.</span>
+<span class="sd">            weights (float | Sequence[float], optional): weights to apply to the columns.</span>
 <span class="sd">                Can also be used to flip the sign (e.g. -1). Defaults to 1.</span>
-<span class="sd">            preserve_mean (bool): Whether to subtract the mean of the column before applying the</span>
-<span class="sd">                shift. Defaults to False.</span>
-<span class="sd">            reductions (str): The reduction to apply to the column. Should be an available method</span>
-<span class="sd">                of dask.dataframe.Series. For example &quot;mean&quot;. In this case the function is applied</span>
-<span class="sd">                to the column to generate a single value for the whole dataset. If None, the shift</span>
-<span class="sd">                is applied per-dataframe-row. Defaults to None. Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            reductions (str | Sequence[str], optional): The reduction to apply to the column.</span>
+<span class="sd">                Should be an available method of dask.dataframe.Series. For example &quot;mean&quot;. In this</span>
+<span class="sd">                case the function is applied to the column to generate a single value for the whole</span>
+<span class="sd">                dataset. If None, the shift is applied per-dataframe-row. Defaults to None.</span>
+<span class="sd">                Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            preserve_mean (bool | Sequence[bool], optional): Whether to subtract the mean of the</span>
+<span class="sd">                column before applying the shift. Defaults to False.</span>
 <span class="sd">            preview (bool, optional): Option to preview the first elements of the data frame.</span>
 <span class="sd">                Defaults to False.</span>
 <span class="sd">            verbose (bool, optional): Option to print out diagnostic information.</span>
@@ -2229,7 +2228,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.calibrate_delay_axis">[docs]</a>
     <span class="k">def</span> <span class="nf">calibrate_delay_axis</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">delay_range</span><span class="p">:</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">delay_range</span><span class="p">:</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">datafile</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">preview</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -2239,7 +2238,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        them from a file.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            delay_range (Tuple[float, float], optional): The scanned delay range in</span>
+<span class="sd">            delay_range (tuple[float, float], optional): The scanned delay range in</span>
 <span class="sd">                picoseconds. Defaults to None.</span>
 <span class="sd">            datafile (str, optional): The file from which to read the delay ranges.</span>
 <span class="sd">                Defaults to None.</span>
@@ -2351,10 +2350,10 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">constant</span><span class="p">:</span> <span class="nb">float</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">flip_delay_axis</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">columns</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">weights</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="mf">1.0</span><span class="p">,</span>
-        <span class="n">reductions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">preserve_mean</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
+        <span class="n">columns</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">weights</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="mf">1.0</span><span class="p">,</span>
+        <span class="n">reductions</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">preserve_mean</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">bool</span><span class="p">]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">preview</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">verbose</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
@@ -2363,15 +2362,16 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        Args:</span>
 <span class="sd">            constant (float, optional): The constant to shift the delay axis by.</span>
 <span class="sd">            flip_delay_axis (bool, optional): Option to reverse the direction of the delay axis.</span>
-<span class="sd">            columns (Union[str, Sequence[str]]): Name of the column(s) to apply the shift from.</span>
-<span class="sd">            weights (Union[float, Sequence[float]]): weights to apply to the columns.</span>
+<span class="sd">            columns (str | Sequence[str], optional): Name of the column(s) to apply the shift from.</span>
+<span class="sd">            weights (float | Sequence[float], optional): weights to apply to the columns.</span>
 <span class="sd">                Can also be used to flip the sign (e.g. -1). Defaults to 1.</span>
-<span class="sd">            preserve_mean (bool): Whether to subtract the mean of the column before applying the</span>
-<span class="sd">                shift. Defaults to False.</span>
-<span class="sd">            reductions (str): The reduction to apply to the column. Should be an available method</span>
-<span class="sd">                of dask.dataframe.Series. For example &quot;mean&quot;. In this case the function is applied</span>
-<span class="sd">                to the column to generate a single value for the whole dataset. If None, the shift</span>
-<span class="sd">                is applied per-dataframe-row. Defaults to None. Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            reductions (str | Sequence[str], optional): The reduction to apply to the column.</span>
+<span class="sd">                Should be an available method of dask.dataframe.Series. For example &quot;mean&quot;. In this</span>
+<span class="sd">                case the function is applied to the column to generate a single value for the whole</span>
+<span class="sd">                dataset. If None, the shift is applied per-dataframe-row. Defaults to None.</span>
+<span class="sd">                Currently only &quot;mean&quot; is supported.</span>
+<span class="sd">            preserve_mean (bool | Sequence[bool], optional): Whether to subtract the mean of the</span>
+<span class="sd">                column before applying the shift. Defaults to False.</span>
 <span class="sd">            preview (bool, optional): Option to preview the first elements of the data frame.</span>
 <span class="sd">                Defaults to False.</span>
 <span class="sd">            verbose (bool, optional): Option to print out diagnostic information.</span>
@@ -2498,16 +2498,16 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.add_jitter">[docs]</a>
     <span class="k">def</span> <span class="nf">add_jitter</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">cols</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">amps</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">cols</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">amps</span><span class="p">:</span> <span class="nb">float</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">float</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">):</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Add jitter to the selected dataframe columns.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            cols (List[str], optional): The columns onto which to apply jitter.</span>
+<span class="sd">            cols (list[str], optional): The colums onto which to apply jitter.</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;jitter_cols&quot;].</span>
-<span class="sd">            amps (Union[float, Sequence[float]], optional): Amplitude scalings for the</span>
+<span class="sd">            amps (float | Sequence[float], optional): Amplitude scalings for the</span>
 <span class="sd">                jittering noise. If one number is given, the same is used for all axes.</span>
 <span class="sd">                For uniform noise (default) it will cover the interval [-amp, +amp].</span>
 <span class="sd">                Defaults to config[&quot;dataframe&quot;][&quot;jitter_amps&quot;].</span>
@@ -2613,7 +2613,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
                     <span class="n">time_stamp_column</span><span class="o">=</span><span class="n">time_stamp_column</span><span class="p">,</span>
                     <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
                 <span class="p">)</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
         <span class="n">metadata</span><span class="o">.</span><span class="n">append</span><span class="p">(</span><span class="n">dest_column</span><span class="p">)</span>
         <span class="n">metadata</span><span class="o">.</span><span class="n">append</span><span class="p">(</span><span class="n">time_stamps</span><span class="p">)</span>
         <span class="n">metadata</span><span class="o">.</span><span class="n">append</span><span class="p">(</span><span class="n">data</span><span class="p">)</span>
@@ -2624,22 +2624,22 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.pre_binning">[docs]</a>
     <span class="k">def</span> <span class="nf">pre_binning</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">df_partitions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
-        <span class="n">axes</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">bins</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">df_partitions</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
+        <span class="n">axes</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">bins</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Function to do an initial binning of the dataframe loaded to the class.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            df_partitions (Union[int, Sequence[int]], optional): Number of dataframe partitions to</span>
+<span class="sd">            df_partitions (int | Sequence[int], optional): Number of dataframe partitions to</span>
 <span class="sd">                use for the initial binning. Defaults to 100.</span>
-<span class="sd">            axes (List[str], optional): Axes to bin.</span>
+<span class="sd">            axes (list[str], optional): Axes to bin.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;axes&quot;].</span>
-<span class="sd">            bins (List[int], optional): Bin numbers to use for binning.</span>
+<span class="sd">            bins (list[int], optional): Bin numbers to use for binning.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;bins&quot;].</span>
-<span class="sd">            ranges (List[Tuple], optional): Ranges to use for binning.</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): Ranges to use for binning.</span>
 <span class="sd">                Defaults to config[&quot;momentum&quot;][&quot;ranges&quot;].</span>
 <span class="sd">            **kwds: Keyword argument passed to ``compute``.</span>
 
@@ -2659,7 +2659,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
             <span class="n">ranges_</span><span class="p">[</span><span class="mi">2</span><span class="p">]</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">asarray</span><span class="p">(</span><span class="n">ranges_</span><span class="p">[</span><span class="mi">2</span><span class="p">])</span> <span class="o">/</span> <span class="mi">2</span> <span class="o">**</span> <span class="p">(</span>
                 <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;tof_binning&quot;</span><span class="p">]</span> <span class="o">-</span> <span class="mi">1</span>
             <span class="p">)</span>
-            <span class="n">ranges</span> <span class="o">=</span> <span class="p">[</span><span class="n">cast</span><span class="p">(</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span> <span class="nb">tuple</span><span class="p">(</span><span class="n">v</span><span class="p">))</span> <span class="k">for</span> <span class="n">v</span> <span class="ow">in</span> <span class="n">ranges_</span><span class="p">]</span>
+            <span class="n">ranges</span> <span class="o">=</span> <span class="p">[</span><span class="n">cast</span><span class="p">(</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">],</span> <span class="nb">tuple</span><span class="p">(</span><span class="n">v</span><span class="p">))</span> <span class="k">for</span> <span class="n">v</span> <span class="ow">in</span> <span class="n">ranges_</span><span class="p">]</span>
 
         <span class="k">assert</span> <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">,</span> <span class="s2">&quot;dataframe needs to be loaded first!&quot;</span>
 
@@ -2676,23 +2676,16 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../sed/core.html#sed.core.SedProcessor.compute">[docs]</a>
     <span class="k">def</span> <span class="nf">compute</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">bins</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span>
-            <span class="nb">int</span><span class="p">,</span>
-            <span class="nb">dict</span><span class="p">,</span>
-            <span class="nb">tuple</span><span class="p">,</span>
-            <span class="n">List</span><span class="p">[</span><span class="nb">int</span><span class="p">],</span>
-            <span class="n">List</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-            <span class="n">List</span><span class="p">[</span><span class="nb">tuple</span><span class="p">],</span>
-        <span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
-        <span class="n">axes</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">normalize_to_acquisition_time</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
+        <span class="n">bins</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="nb">dict</span> <span class="o">|</span> <span class="nb">tuple</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">tuple</span><span class="p">]</span> <span class="o">=</span> <span class="mi">100</span><span class="p">,</span>
+        <span class="n">axes</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">normalize_to_acquisition_time</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">|</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
     <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Compute the histogram along the given dimensions.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            bins (int, dict, tuple, List[int], List[np.ndarray], List[tuple], optional):</span>
+<span class="sd">            bins (int | dict | tuple | list[int] | list[np.ndarray] | list[tuple], optional):</span>
 <span class="sd">                Definition of the bins. Can be any of the following cases:</span>
 
 <span class="sd">                - an integer describing the number of bins in on all dimensions</span>
@@ -2703,13 +2696,13 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">                - a dictionary made of the axes as keys and any of the above as values.</span>
 
 <span class="sd">                This takes priority over the axes and range arguments. Defaults to 100.</span>
-<span class="sd">            axes (Union[str, Sequence[str]], optional): The names of the axes (columns)</span>
+<span class="sd">            axes (str | Sequence[str], optional): The names of the axes (columns)</span>
 <span class="sd">                on which to calculate the histogram. The order will be the order of the</span>
 <span class="sd">                dimensions in the resulting array. Defaults to None.</span>
-<span class="sd">            ranges (Sequence[Tuple[float, float]], optional): list of tuples containing</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): list of tuples containing</span>
 <span class="sd">                the start and end point of the binning range. Defaults to None.</span>
-<span class="sd">            normalize_to_acquisition_time (Union[bool, str]): Option to normalize the</span>
-<span class="sd">                result to the acquisition time. If a &quot;slow&quot; axis was scanned, providing</span>
+<span class="sd">            normalize_to_acquisition_time (bool | str): Option to normalize the</span>
+<span class="sd">                result to the acquistion time. If a &quot;slow&quot; axis was scanned, providing</span>
 <span class="sd">                the name of the scanned axis will compute and apply the corresponding</span>
 <span class="sd">                normalization histogram. Defaults to False.</span>
 <span class="sd">            **kwds: Keyword arguments:</span>
@@ -2759,7 +2752,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
             <span class="s2">&quot;threadpool_API&quot;</span><span class="p">,</span>
             <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;binning&quot;</span><span class="p">][</span><span class="s2">&quot;threadpool_API&quot;</span><span class="p">],</span>
         <span class="p">)</span>
-        <span class="n">df_partitions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;df_partitions&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
+        <span class="n">df_partitions</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;df_partitions&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
         <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">df_partitions</span><span class="p">,</span> <span class="nb">int</span><span class="p">):</span>
             <span class="n">df_partitions</span> <span class="o">=</span> <span class="nb">list</span><span class="p">(</span><span class="nb">range</span><span class="p">(</span><span class="mi">0</span><span class="p">,</span> <span class="nb">min</span><span class="p">(</span><span class="n">df_partitions</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span><span class="o">.</span><span class="n">npartitions</span><span class="p">)))</span>
         <span class="k">if</span> <span class="n">df_partitions</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">:</span>
@@ -2884,7 +2877,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="k">if</span> <span class="n">axis</span> <span class="ow">not</span> <span class="ow">in</span> <span class="bp">self</span><span class="o">.</span><span class="n">_binned</span><span class="o">.</span><span class="n">coords</span><span class="p">:</span>
             <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;Axis &#39;</span><span class="si">{</span><span class="n">axis</span><span class="si">}</span><span class="s2">&#39; not found in binned data!&quot;</span><span class="p">)</span>
 
-        <span class="n">df_partitions</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">int</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]]</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;df_partitions&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
+        <span class="n">df_partitions</span><span class="p">:</span> <span class="nb">int</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="n">kwds</span><span class="o">.</span><span class="n">pop</span><span class="p">(</span><span class="s2">&quot;df_partitions&quot;</span><span class="p">,</span> <span class="kc">None</span><span class="p">)</span>
         <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">df_partitions</span><span class="p">,</span> <span class="nb">int</span><span class="p">):</span>
             <span class="n">df_partitions</span> <span class="o">=</span> <span class="nb">list</span><span class="p">(</span><span class="nb">range</span><span class="p">(</span><span class="mi">0</span><span class="p">,</span> <span class="nb">min</span><span class="p">(</span><span class="n">df_partitions</span><span class="p">,</span> <span class="bp">self</span><span class="o">.</span><span class="n">_dataframe</span><span class="o">.</span><span class="n">npartitions</span><span class="p">)))</span>
         <span class="k">if</span> <span class="n">use_time_stamps</span> <span class="ow">or</span> <span class="bp">self</span><span class="o">.</span><span class="n">_timed_dataframe</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
@@ -2929,7 +2922,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
         <span class="n">ncol</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">2</span><span class="p">,</span>
         <span class="n">bins</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">axes</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">ranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">backend</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;bokeh&quot;</span><span class="p">,</span>
         <span class="n">legend</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
         <span class="n">histkwds</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -2942,12 +2935,12 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">        Args:</span>
 <span class="sd">            dfpid (int): Number of the data frame partition to look at.</span>
 <span class="sd">            ncol (int, optional): Number of columns in the plot grid. Defaults to 2.</span>
-<span class="sd">            bins (Sequence[int], optional): Number of bins to use for the specified</span>
+<span class="sd">            bins (Sequence[int], optional): Number of bins to use for the speicified</span>
 <span class="sd">                axes. Defaults to config[&quot;histogram&quot;][&quot;bins&quot;].</span>
 <span class="sd">            axes (Sequence[str], optional): Names of the axes to display.</span>
 <span class="sd">                Defaults to config[&quot;histogram&quot;][&quot;axes&quot;].</span>
-<span class="sd">            ranges (Sequence[Tuple[float, float]], optional): Value ranges of all</span>
-<span class="sd">                specified axes. Defaults to config[&quot;histogram&quot;][&quot;ranges&quot;].</span>
+<span class="sd">            ranges (Sequence[tuple[float, float]], optional): Value ranges of all</span>
+<span class="sd">                specified axes. Defaults toconfig[&quot;histogram&quot;][&quot;ranges&quot;].</span>
 <span class="sd">            backend (str, optional): Backend of the plotting library</span>
 <span class="sd">                (&#39;matplotlib&#39; or &#39;bokeh&#39;). Defaults to &quot;bokeh&quot;.</span>
 <span class="sd">            legend (bool, optional): Option to include a legend in the histogram plots.</span>
@@ -3032,7 +3025,7 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 <span class="sd">                - &quot;*.h5&quot;, &quot;*.hdf5&quot;: Saves an HDF5 file.</span>
 <span class="sd">                - &quot;*.nxs&quot;, &quot;*.nexus&quot;: Saves a NeXus file.</span>
 
-<span class="sd">            **kwds: Keyword arguments, which are passed to the writer functions:</span>
+<span class="sd">            **kwds: Keyword argumens, which are passed to the writer functions:</span>
 <span class="sd">                For TIFF writing:</span>
 
 <span class="sd">                - **alias_dict**: Dictionary of dimension aliases to use.</span>
@@ -3043,9 +3036,9 @@ <h1>Source code for sed.core.processor</h1><div class="highlight"><pre>
 
 <span class="sd">                For NeXus:</span>
 
-<span class="sd">                - **reader**: Name of the pynxtools reader to use.</span>
+<span class="sd">                - **reader**: Name of the nexustools reader to use.</span>
 <span class="sd">                  Defaults to config[&quot;nexus&quot;][&quot;reader&quot;]</span>
-<span class="sd">                - **definition**: NeXus application definition to use for saving.</span>
+<span class="sd">                - **definiton**: NeXus application definition to use for saving.</span>
 <span class="sd">                  Must be supported by the used ``reader``. Defaults to</span>
 <span class="sd">                  config[&quot;nexus&quot;][&quot;definition&quot;]</span>
 <span class="sd">                - **input_files**: A list of input files to pass to the reader.</span>
diff --git a/sed/latest/_modules/sed/dataset/dataset.html b/sed/latest/_modules/sed/dataset/dataset.html
index 5f4d38d..b3c4d33 100644
--- a/sed/latest/_modules/sed/dataset/dataset.html
+++ b/sed/latest/_modules/sed/dataset/dataset.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.dataset.dataset &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.dataset.dataset &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/_modules/sed/diagnostics.html b/sed/latest/_modules/sed/diagnostics.html
index f9dbbaa..5f7dfa5 100644
--- a/sed/latest/_modules/sed/diagnostics.html
+++ b/sed/latest/_modules/sed/diagnostics.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.diagnostics &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.diagnostics &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,8 +449,9 @@ <h1>Source code for sed.diagnostics</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains diagnostic output functions for the sed module</span>
 
 <span class="sd">&quot;&quot;&quot;</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 
 <span class="kn">import</span> <span class="nn">bokeh.plotting</span> <span class="k">as</span> <span class="nn">pbk</span>
 <span class="kn">import</span> <span class="nn">matplotlib.pyplot</span> <span class="k">as</span> <span class="nn">plt</span>
@@ -507,7 +508,7 @@ <h1>Source code for sed.diagnostics</h1><div class="highlight"><pre>
     <span class="n">ncol</span><span class="p">:</span> <span class="nb">int</span><span class="p">,</span>
     <span class="n">rvs</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">,</span>
     <span class="n">rvbins</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">,</span>
-    <span class="n">rvranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]],</span>
+    <span class="n">rvranges</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]],</span>
     <span class="n">backend</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;bokeh&quot;</span><span class="p">,</span>
     <span class="n">legend</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
     <span class="n">histkwds</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -521,7 +522,7 @@ <h1>Source code for sed.diagnostics</h1><div class="highlight"><pre>
 <span class="sd">        ncol (int): Number of columns in the plot grid.</span>
 <span class="sd">        rvs (Sequence): List of names for the random variables (rvs).</span>
 <span class="sd">        rvbins (Sequence): Bin values for all random variables.</span>
-<span class="sd">        rvranges (Sequence[Tuple[float, float]]): Value ranges of all random variables.</span>
+<span class="sd">        rvranges (Sequence[tuple[float, float]]): Value ranges of all random variables.</span>
 <span class="sd">        backend (str, optional): Backend for making the plot (&#39;matplotlib&#39; or &#39;bokeh&#39;).</span>
 <span class="sd">            Defaults to &quot;bokeh&quot;.</span>
 <span class="sd">        legend (bool, optional): Option to include a legend in each histogram plot.</span>
diff --git a/sed/latest/_modules/sed/io/hdf5.html b/sed/latest/_modules/sed/io/hdf5.html
index 2ea1d2a..29c0429 100644
--- a/sed/latest/_modules/sed/io/hdf5.html
+++ b/sed/latest/_modules/sed/io/hdf5.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.io.hdf5 &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.io.hdf5 &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,7 +449,7 @@ <h1>Source code for sed.io.hdf5</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains hdf5 file input/output functions for the sed.io module</span>
 
 <span class="sd">&quot;&quot;&quot;</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
 
 <span class="kn">import</span> <span class="nn">h5py</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -496,17 +496,17 @@ <h1>Source code for sed.io.hdf5</h1><div class="highlight"><pre>
                 <span class="nb">print</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;Saved </span><span class="si">{</span><span class="n">key</span><span class="si">}</span><span class="s2"> as string.&quot;</span><span class="p">)</span>
             <span class="k">except</span> <span class="ne">BaseException</span> <span class="k">as</span> <span class="n">exc</span><span class="p">:</span>
                 <span class="k">raise</span> <span class="ne">ValueError</span><span class="p">(</span>
-                    <span class="sa">f</span><span class="s2">&quot;Unknown error occurred, cannot save </span><span class="si">{</span><span class="n">item</span><span class="si">}</span><span class="s2"> of type </span><span class="si">{</span><span class="nb">type</span><span class="p">(</span><span class="n">item</span><span class="p">)</span><span class="si">}</span><span class="s2">.&quot;</span><span class="p">,</span>
+                    <span class="sa">f</span><span class="s2">&quot;Unknown error occured, cannot save </span><span class="si">{</span><span class="n">item</span><span class="si">}</span><span class="s2"> of type </span><span class="si">{</span><span class="nb">type</span><span class="p">(</span><span class="n">item</span><span class="p">)</span><span class="si">}</span><span class="s2">.&quot;</span><span class="p">,</span>
                 <span class="p">)</span> <span class="kn">from</span> <span class="nn">exc</span>
 
 
 <span class="k">def</span> <span class="nf">recursive_parse_metadata</span><span class="p">(</span>
-    <span class="n">node</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">h5py</span><span class="o">.</span><span class="n">Group</span><span class="p">,</span> <span class="n">h5py</span><span class="o">.</span><span class="n">Dataset</span><span class="p">],</span>
+    <span class="n">node</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">Group</span> <span class="o">|</span> <span class="n">h5py</span><span class="o">.</span><span class="n">Dataset</span><span class="p">,</span>
 <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Recurses through an hdf5 file, and parse it into a dictionary.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        node (Union[h5py.Group, h5py.Dataset]): hdf5 group or dataset to parse into</span>
+<span class="sd">        node (h5py.Group | h5py.Dataset): hdf5 group or dataset to parse into</span>
 <span class="sd">            dictionary.</span>
 
 <span class="sd">    Returns:</span>
@@ -594,7 +594,7 @@ <h1>Source code for sed.io.hdf5</h1><div class="highlight"><pre>
 <span class="sd">        ValueError: Raised if data or axes are not found in the file.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        xr.DataArray: output xarray data</span>
+<span class="sd">        xr.DataArray: output xarra data</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">with</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">(</span><span class="n">faddr</span><span class="p">,</span> <span class="n">mode</span><span class="p">)</span> <span class="k">as</span> <span class="n">h5_file</span><span class="p">:</span>
         <span class="c1"># Reading data array</span>
diff --git a/sed/latest/_modules/sed/io/nexus.html b/sed/latest/_modules/sed/io/nexus.html
index 04c486f..748cd67 100644
--- a/sed/latest/_modules/sed/io/nexus.html
+++ b/sed/latest/_modules/sed/io/nexus.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.io.nexus &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.io.nexus &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -447,12 +447,13 @@
                   
   <h1>Source code for sed.io.nexus</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains NuXus file input/output functions for the sed.io module.</span>
-<span class="sd">The conversion is based on the pynxtools from the FAIRmat NFDI consortium.</span>
+<span class="sd">The conversion is based on the nexusutils from the FAIRmat NFDI consortium.</span>
 <span class="sd">For details, see https://github.com/nomad-coe/nomad-parser-nexus</span>
 
 <span class="sd">&quot;&quot;&quot;</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 
 <span class="kn">import</span> <span class="nn">xarray</span> <span class="k">as</span> <span class="nn">xr</span>
 <span class="kn">from</span> <span class="nn">pynxtools.dataconverter.convert</span> <span class="kn">import</span> <span class="n">convert</span>
@@ -465,7 +466,7 @@ <h1>Source code for sed.io.nexus</h1><div class="highlight"><pre>
     <span class="n">faddr</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">reader</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">definition</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="n">input_files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]],</span>
+    <span class="n">input_files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
     <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
 <span class="p">):</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Saves the x-array provided to a NeXus file at faddr, using the provided reader,</span>
@@ -476,10 +477,9 @@ <h1>Source code for sed.io.nexus</h1><div class="highlight"><pre>
 <span class="sd">            data._attrs[&quot;metadata&quot;].</span>
 <span class="sd">        faddr (str): The file path to save to.</span>
 <span class="sd">        reader (str): The name of the NeXus reader to use.</span>
-<span class="sd">        definition (str): The NeXus definition to use.</span>
-<span class="sd">        input_files (Union[str, Sequence[str]]): The file path or paths to the additional files to</span>
-<span class="sd">            use.</span>
-<span class="sd">        **kwds: Keyword arguments for ``pynxtools.dataconverter.convert.convert()``.</span>
+<span class="sd">        definition (str): The NeXus definiton to use.</span>
+<span class="sd">        input_files (str | Sequence[str]): The file path or paths to the additional files to use.</span>
+<span class="sd">        **kwds: Keyword arguments for ``nexusutils.dataconverter.convert``.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
     <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">input_files</span><span class="p">,</span> <span class="nb">str</span><span class="p">):</span>
diff --git a/sed/latest/_modules/sed/io/tiff.html b/sed/latest/_modules/sed/io/tiff.html
index cdd8d44..b0f7d32 100644
--- a/sed/latest/_modules/sed/io/tiff.html
+++ b/sed/latest/_modules/sed/io/tiff.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.io.tiff &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.io.tiff &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,9 +449,10 @@ <h1>Source code for sed.io.tiff</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;This module contains tiff file input/output functions for the sed.io module</span>
 
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">pathlib</span> <span class="kn">import</span> <span class="n">Path</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
 <span class="kn">import</span> <span class="nn">tifffile</span>
@@ -487,20 +488,20 @@ <h1>Source code for sed.io.tiff</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="to_tiff">
 <a class="viewcode-back" href="../../../sed/io.html#sed.io.to_tiff">[docs]</a>
 <span class="k">def</span> <span class="nf">to_tiff</span><span class="p">(</span>
-    <span class="n">data</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">],</span>
-    <span class="n">faddr</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">Path</span><span class="p">,</span> <span class="nb">str</span><span class="p">],</span>
+    <span class="n">data</span><span class="p">:</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">|</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span>
+    <span class="n">faddr</span><span class="p">:</span> <span class="n">Path</span> <span class="o">|</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">alias_dict</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
 <span class="p">):</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Save an array as a .tiff stack compatible with ImageJ</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        data (Union[xr.DataArray, np.ndarray]): data to be saved. If a np.ndarray,</span>
+<span class="sd">        data (xr.DataArray | np.ndarray): data to be saved. If a np.ndarray,</span>
 <span class="sd">            the order is retained. If it is an xarray.DataArray, the order is inferred</span>
 <span class="sd">            from axis_dict instead. ImageJ likes tiff files with axis order as</span>
 <span class="sd">            TZCYXS. Therefore, best axis order in input should be: Time, Energy,</span>
 <span class="sd">            posY, posX. The channels &#39;C&#39; and &#39;S&#39; are automatically added and can</span>
 <span class="sd">            be ignored.</span>
-<span class="sd">        faddr (Union[Path, str]): full path and name of file to save.</span>
+<span class="sd">        faddr Path | str): full path and name of file to save.</span>
 <span class="sd">        alias_dict (dict, optional): name pairs for correct axis ordering. Keys should</span>
 <span class="sd">            be any of T,Z,C,Y,X,S. The Corresponding value should be a dimension of the</span>
 <span class="sd">            xarray or the dimension number if a numpy array. This is used to sort the</span>
@@ -513,7 +514,7 @@ <h1>Source code for sed.io.tiff</h1><div class="highlight"><pre>
 <span class="sd">        NotImplementedError: if data is not 2,3 or 4 dimensional</span>
 <span class="sd">        TypeError: if data is not a np.ndarray or an xarray.DataArray</span>
 <span class="sd">    &quot;&quot;&quot;</span>
-    <span class="n">out</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span>
+    <span class="n">out</span><span class="p">:</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span> <span class="o">|</span> <span class="n">xr</span><span class="o">.</span><span class="n">DataArray</span> <span class="o">=</span> <span class="kc">None</span>
     <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">data</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">):</span>
         <span class="c1"># TODO: add sorting by dictionary keys</span>
         <span class="n">dim_expansions</span> <span class="o">=</span> <span class="p">{</span><span class="mi">2</span><span class="p">:</span> <span class="p">[</span><span class="mi">0</span><span class="p">,</span> <span class="mi">1</span><span class="p">,</span> <span class="mi">2</span><span class="p">,</span> <span class="mi">5</span><span class="p">],</span> <span class="mi">3</span><span class="p">:</span> <span class="p">[</span><span class="mi">0</span><span class="p">,</span> <span class="mi">2</span><span class="p">,</span> <span class="mi">5</span><span class="p">],</span> <span class="mi">4</span><span class="p">:</span> <span class="p">[</span><span class="mi">2</span><span class="p">,</span> <span class="mi">5</span><span class="p">]}</span>
@@ -625,7 +626,7 @@ <h1>Source code for sed.io.tiff</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="load_tiff">
 <a class="viewcode-back" href="../../../sed/io.html#sed.io.load_tiff">[docs]</a>
 <span class="k">def</span> <span class="nf">load_tiff</span><span class="p">(</span>
-    <span class="n">faddr</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Path</span><span class="p">],</span>
+    <span class="n">faddr</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Path</span><span class="p">,</span>
     <span class="n">coords</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">dims</span><span class="p">:</span> <span class="n">Sequence</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">attrs</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
@@ -637,7 +638,7 @@ <h1>Source code for sed.io.tiff</h1><div class="highlight"><pre>
 <span class="sd">    only as np.ndarray.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        faddr (Union[str, Path]): Path to file to load.</span>
+<span class="sd">        faddr (str | Path): Path to file to load.</span>
 <span class="sd">        coords (dict, optional): The axes describing the data, following the tiff</span>
 <span class="sd">            stack order. Defaults to None.</span>
 <span class="sd">        dims (Sequence, optional): the order of the coordinates provided, considering</span>
diff --git a/sed/latest/_modules/sed/loader/base/loader.html b/sed/latest/_modules/sed/loader/base/loader.html
index 0ad4d30..06e2d9c 100644
--- a/sed/latest/_modules/sed/loader/base/loader.html
+++ b/sed/latest/_modules/sed/loader/base/loader.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.base.loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.base.loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -446,17 +446,16 @@
                 <article class="bd-article">
                   
   <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
-<span></span><span class="sd">&quot;&quot;&quot;The abstract class off of which to implement loaders.&quot;&quot;&quot;</span>
+<span></span><span class="sd">&quot;&quot;&quot;The abstract class off of which to implement loaders.</span>
+<span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">os</span>
 <span class="kn">from</span> <span class="nn">abc</span> <span class="kn">import</span> <span class="n">ABC</span>
 <span class="kn">from</span> <span class="nn">abc</span> <span class="kn">import</span> <span class="n">abstractmethod</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">copy</span> <span class="kn">import</span> <span class="n">deepcopy</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Any</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span> <span class="k">as</span> <span class="nn">ddf</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -482,7 +481,7 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
 
     <span class="vm">__name__</span> <span class="o">=</span> <span class="s2">&quot;BaseLoader&quot;</span>
 
-    <span class="n">supported_file_types</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+    <span class="n">supported_file_types</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
 
     <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
@@ -490,35 +489,35 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
     <span class="p">):</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">_config</span> <span class="o">=</span> <span class="n">config</span> <span class="k">if</span> <span class="n">config</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span> <span class="k">else</span> <span class="p">{}</span>
 
-        <span class="bp">self</span><span class="o">.</span><span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">runs</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">metadata</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">runs</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="n">Any</span><span class="p">,</span> <span class="n">Any</span><span class="p">]</span> <span class="o">=</span> <span class="p">{}</span>
 
 <div class="viewcode-block" id="BaseLoader.read_dataframe">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.base.loader.BaseLoader.read_dataframe">[docs]</a>
     <span class="nd">@abstractmethod</span>
     <span class="k">def</span> <span class="nf">read_dataframe</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">runs</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">runs</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">ftype</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Reads data from given files, folder, or runs and returns a dask dataframe</span>
 <span class="sd">        and corresponding metadata.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            files (Union[str, Sequence[str]], optional): File path(s) to process.</span>
+<span class="sd">            files (str | Sequence[str], optional): File path(s) to process.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): Path to folder(s) where files</span>
+<span class="sd">            folders (str | Sequence[str], optional): Path to folder(s) where files</span>
 <span class="sd">                are stored. Path has priority such that if it&#39;s specified, the specified</span>
 <span class="sd">                files will be ignored. Defaults to None.</span>
-<span class="sd">            runs (Union[str, Sequence[str]], optional): Run identifier(s). Corresponding</span>
+<span class="sd">            runs (str | Sequence[str], optional): Run identifier(s). Corresponding</span>
 <span class="sd">                files will be located in the location provided by ``folders``. Takes</span>
-<span class="sd">                precedence over ``files`` and ``folders``. Defaults to None.</span>
+<span class="sd">                precendence over ``files`` and ``folders``. Defaults to None.</span>
 <span class="sd">            ftype (str, optional): File type to read (&#39;parquet&#39;, &#39;json&#39;, &#39;csv&#39;, etc).</span>
 <span class="sd">                If a folder path is given, all files with the specified extension are</span>
 <span class="sd">                read into the dataframe in the reading order. Defaults to None.</span>
@@ -529,7 +528,7 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
 <span class="sd">            **kwds: keyword arguments. See description in respective loader.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[ddf.DataFrame, dict]: Dask dataframe, timed dataframe and metadata</span>
+<span class="sd">            tuple[ddf.DataFrame, ddf.DataFrame, dict]: Dask dataframe, timed dataframe and metadata</span>
 <span class="sd">            read from specified files.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
 
@@ -584,21 +583,21 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">get_files_from_run_id</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">run_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">extension</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Locate the files for a given run identifier.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            run_id (str): The run identifier to locate.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): The directory(ies) where the raw</span>
+<span class="sd">            folders (str | Sequence[str], optional): The directory(ies) where the raw</span>
 <span class="sd">                data is located. Defaults to None.</span>
 <span class="sd">            extension (str, optional): The file extension. Defaults to None.</span>
 <span class="sd">            kwds: Keyword arguments</span>
 
 <span class="sd">        Return:</span>
-<span class="sd">            List[str]: List of files for the given run.</span>
+<span class="sd">            list[str]: List of files for the given run.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">raise</span> <span class="ne">NotImplementedError</span></div>
 
@@ -610,7 +609,7 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">fids</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Create count rate data for the files specified in ``fids``.</span>
 
 <span class="sd">        Args:</span>
@@ -619,7 +618,7 @@ <h1>Source code for sed.loader.base.loader</h1><div class="highlight"><pre>
 <span class="sd">            kwds: Keyword arguments</span>
 
 <span class="sd">        Return:</span>
-<span class="sd">            Tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
+<span class="sd">            tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
 <span class="sd">            into the scan.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">return</span> <span class="kc">None</span><span class="p">,</span> <span class="kc">None</span></div>
diff --git a/sed/latest/_modules/sed/loader/flash/loader.html b/sed/latest/_modules/sed/loader/flash/loader.html
index e3c9b21..191fd5d 100644
--- a/sed/latest/_modules/sed/loader/flash/loader.html
+++ b/sed/latest/_modules/sed/loader/flash/loader.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.flash.loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.flash.loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -453,15 +453,14 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">The dataframe is a amalgamation of all h5 files for a combination of runs, where the NaNs are</span>
 <span class="sd">automatically forward filled across different files.</span>
 <span class="sd">This can then be saved as a parquet for out-of-sed processing and reread back to access other</span>
-<span class="sd">sed functionality.</span>
+<span class="sd">sed funtionality.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">time</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">functools</span> <span class="kn">import</span> <span class="n">reduce</span>
 <span class="kn">from</span> <span class="nn">pathlib</span> <span class="kn">import</span> <span class="n">Path</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span> <span class="k">as</span> <span class="nn">dd</span>
 <span class="kn">import</span> <span class="nn">h5py</span>
@@ -499,16 +498,16 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">multi_index</span> <span class="o">=</span> <span class="p">[</span><span class="s2">&quot;trainId&quot;</span><span class="p">,</span> <span class="s2">&quot;pulseId&quot;</span><span class="p">,</span> <span class="s2">&quot;electronId&quot;</span><span class="p">]</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">index_per_electron</span><span class="p">:</span> <span class="n">MultiIndex</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">index_per_pulse</span><span class="p">:</span> <span class="n">MultiIndex</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">failed_files_error</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">failed_files_error</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
 
 <div class="viewcode-block" id="FlashLoader.initialize_paths">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.flash.loader.FlashLoader.initialize_paths">[docs]</a>
-    <span class="k">def</span> <span class="nf">initialize_paths</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">Path</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">initialize_paths</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">Path</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Initializes the paths based on the configuration.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[List[Path], Path]: A tuple containing a list of raw data directories</span>
+<span class="sd">            tuple[list[Path], Path]: A tuple containing a list of raw data directories</span>
 <span class="sd">            paths and the parquet data directory path.</span>
 
 <span class="sd">        Raises:</span>
@@ -569,23 +568,23 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">get_files_from_run_id</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">run_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">extension</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Returns a list of filenames for a given run located in the specified directory</span>
 <span class="sd">        for the specified data acquisition (daq).</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            run_id (str): The run identifier to locate.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): The directory(ies) where the raw</span>
+<span class="sd">            folders (str | Sequence[str], optional): The directory(ies) where the raw</span>
 <span class="sd">                data is located. Defaults to config[&quot;core&quot;][&quot;base_folder&quot;].</span>
 <span class="sd">            extension (str, optional): The file extension. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            kwds: Keyword arguments:</span>
 <span class="sd">                - daq (str): The data acquisition identifier.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            List[str]: A list of path strings representing the collected file names.</span>
+<span class="sd">            list[str]: A list of path strings representing the collected file names.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            FileNotFoundError: If no files are found for the given run in the directory.</span>
@@ -604,7 +603,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="c1"># Generate the file patterns to search for in the directory</span>
         <span class="n">file_pattern</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;</span><span class="si">{</span><span class="n">stream_name_prefixes</span><span class="p">[</span><span class="n">daq</span><span class="p">]</span><span class="si">}</span><span class="s2">_run</span><span class="si">{</span><span class="n">run_id</span><span class="si">}</span><span class="s2">_*.&quot;</span> <span class="o">+</span> <span class="n">extension</span>
 
-        <span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
         <span class="c1"># Use pathlib to search for matching files in each directory</span>
         <span class="k">for</span> <span class="n">folder</span> <span class="ow">in</span> <span class="n">folders</span><span class="p">:</span>
             <span class="n">files</span><span class="o">.</span><span class="n">extend</span><span class="p">(</span>
@@ -625,7 +624,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">available_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">:</span>
+    <span class="k">def</span> <span class="nf">available_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Returns the channel names that are available for use,</span>
 <span class="sd">        excluding pulseId, defined by the json file&quot;&quot;&quot;</span>
         <span class="n">available_channels</span> <span class="o">=</span> <span class="nb">list</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;channels&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">keys</span><span class="p">())</span>
@@ -634,17 +633,17 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="FlashLoader.get_channels">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.flash.loader.FlashLoader.get_channels">[docs]</a>
-    <span class="k">def</span> <span class="nf">get_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">formats</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">,</span> <span class="n">index</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">get_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">formats</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">,</span> <span class="n">index</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a list of channels associated with the specified format(s).</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            formats (Union[str, List[str]]): The desired format(s)</span>
-<span class="sd">                                (&#39;per_pulse&#39;, &#39;per_electron&#39;, &#39;per_train&#39;, &#39;all&#39;).</span>
+<span class="sd">            formats (str | list[str]): The desired format(s)</span>
+<span class="sd">                (&#39;per_pulse&#39;, &#39;per_electron&#39;, &#39;per_train&#39;, &#39;all&#39;).</span>
 <span class="sd">            index (bool): If True, includes channels from the multi_index.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            List[str]: A list of channels with the specified format(s).</span>
+<span class="sd">            list[str]: A list of channels with the specified format(s).</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="c1"># If &#39;formats&#39; is a single string, convert it to a list for uniform processing.</span>
         <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">formats</span><span class="p">,</span> <span class="nb">str</span><span class="p">):</span>
@@ -781,7 +780,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">h5_file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
         <span class="n">channel</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a numpy array for a given channel name for a given file.</span>
 
@@ -790,7 +789,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            channel (str): The name of the channel.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[Series, np.ndarray]: A tuple containing the train ID Series and the numpy array</span>
+<span class="sd">            tuple[Series, np.ndarray]: A tuple containing the train ID Series and the numpy array</span>
 <span class="sd">            for the channel&#39;s data.</span>
 
 <span class="sd">        &quot;&quot;&quot;</span>
@@ -878,15 +877,15 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            DataFrame: The pandas DataFrame for the channel&#39;s data.</span>
 
 <span class="sd">        Notes:</span>
-<span class="sd">            - For auxiliary channels, the macrobunch resolved data is repeated 499 times to be</span>
-<span class="sd">              compared to electron resolved data for each auxiliary channel. The data is then</span>
+<span class="sd">            - For auxillary channels, the macrobunch resolved data is repeated 499 times to be</span>
+<span class="sd">              compared to electron resolved data for each auxillary channel. The data is then</span>
 <span class="sd">              converted to a multicolumn DataFrame.</span>
 <span class="sd">            - For all other pulse resolved channels, the macrobunch resolved data is exploded</span>
 <span class="sd">              to a DataFrame and the MultiIndex is set.</span>
 
 <span class="sd">        &quot;&quot;&quot;</span>
 
-        <span class="c1"># Special case for auxiliary channels</span>
+        <span class="c1"># Special case for auxillary channels</span>
         <span class="k">if</span> <span class="n">channel</span> <span class="o">==</span> <span class="s2">&quot;dldAux&quot;</span><span class="p">:</span>
             <span class="c1"># Checks the channel dictionary for correct slices and creates a multicolumn DataFrame</span>
             <span class="n">data_frames</span> <span class="o">=</span> <span class="p">(</span>
@@ -949,7 +948,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">h5_file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
         <span class="n">channel</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Series</span> <span class="o">|</span> <span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a pandas DataFrame for a given channel name from a given file.</span>
 
@@ -962,7 +961,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            channel (str): The name of the channel.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[Series, DataFrame]: A pandas Series or DataFrame representing the channel&#39;s data.</span>
+<span class="sd">            Series | DataFrame: A pandas Series or DataFrame representing the channel&#39;s data.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If the channel has an undefined format.</span>
@@ -1105,7 +1104,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="FlashLoader.create_buffer_file">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.flash.loader.FlashLoader.create_buffer_file">[docs]</a>
-    <span class="k">def</span> <span class="nf">create_buffer_file</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">h5_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span> <span class="n">parquet_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="ne">Exception</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">create_buffer_file</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">h5_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span> <span class="n">parquet_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">bool</span> <span class="o">|</span> <span class="ne">Exception</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Converts an HDF5 file to Parquet format to create a buffer file.</span>
 
@@ -1116,6 +1115,9 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            h5_path (Path): Path to the input HDF5 file.</span>
 <span class="sd">            parquet_path (Path): Path to the output Parquet file.</span>
 
+<span class="sd">        Returns:</span>
+<span class="sd">            bool | Exception: Collected exceptions, if any.</span>
+
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If an error occurs during the conversion process.</span>
 
@@ -1139,7 +1141,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="n">data_parquet_dir</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span>
         <span class="n">detector</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
         <span class="n">force_recreate</span><span class="p">:</span> <span class="nb">bool</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">List</span><span class="p">,</span> <span class="n">List</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="nb">list</span><span class="p">,</span> <span class="nb">list</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Handles the conversion of buffer files (h5 to parquet) and returns the filenames.</span>
 
@@ -1149,7 +1151,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            force_recreate (bool): Forces recreation of buffer files</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[List[Path], List, List]: Three lists, one for</span>
+<span class="sd">            tuple[list[Path], list, list]: Three lists, one for</span>
 <span class="sd">            parquet file paths, one for metadata and one for schema.</span>
 
 <span class="sd">        Raises:</span>
@@ -1247,7 +1249,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
         <span class="n">load_parquet</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">save_parquet</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">force_recreate</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Handles loading and saving of parquet files based on the provided parameters.</span>
 
@@ -1262,7 +1264,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <span class="sd">            save_parquet (bool, optional): Saves the entire dataframe into a parquet.</span>
 <span class="sd">            force_recreate (bool, optional): Forces recreation of buffer file.</span>
 <span class="sd">        Returns:</span>
-<span class="sd">            tuple: A tuple containing two dataframes:</span>
+<span class="sd">            tuple[dd.DataFrame, dd.DataFrame]: A tuple containing two dataframes:</span>
 <span class="sd">            - dataframe_electron: Dataframe containing the loaded/augmented electron data.</span>
 <span class="sd">            - dataframe_pulse: Dataframe containing the loaded/augmented timed data.</span>
 
@@ -1304,7 +1306,7 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
             <span class="n">dataframe</span> <span class="o">=</span> <span class="n">dd</span><span class="o">.</span><span class="n">read_parquet</span><span class="p">(</span><span class="n">filenames</span><span class="p">,</span> <span class="n">calculate_divisions</span><span class="o">=</span><span class="kc">True</span><span class="p">)</span>
 
             <span class="c1"># Channels to fill NaN values</span>
-            <span class="n">channels</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">get_channels</span><span class="p">([</span><span class="s2">&quot;per_pulse&quot;</span><span class="p">,</span> <span class="s2">&quot;per_train&quot;</span><span class="p">])</span>
+            <span class="n">channels</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">get_channels</span><span class="p">([</span><span class="s2">&quot;per_pulse&quot;</span><span class="p">,</span> <span class="s2">&quot;per_train&quot;</span><span class="p">])</span>
 
             <span class="n">overlap</span> <span class="o">=</span> <span class="nb">min</span><span class="p">(</span><span class="n">file</span><span class="o">.</span><span class="n">num_rows</span> <span class="k">for</span> <span class="n">file</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">)</span>
 
@@ -1373,31 +1375,32 @@ <h1>Source code for sed.loader.flash.loader</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.flash.loader.FlashLoader.read_dataframe">[docs]</a>
     <span class="k">def</span> <span class="nf">read_dataframe</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">runs</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">runs</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">ftype</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Read express data from the DAQ, generating a parquet in between.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            files (Union[str, Sequence[str]], optional): File path(s) to process. Defaults to None.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): Path to folder(s) where files are stored</span>
+<span class="sd">            files (str | Sequence[str], optional): File path(s) to process. Defaults to None.</span>
+<span class="sd">            folders (str | Sequence[str], optional): Path to folder(s) where files are stored</span>
 <span class="sd">                Path has priority such that if it&#39;s specified, the specified files will be ignored.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            runs (Union[str, Sequence[str]], optional): Run identifier(s). Corresponding files will</span>
-<span class="sd">                be located in the location provided by ``folders``. Takes precedence over</span>
+<span class="sd">            runs (str | Sequence[str], optional): Run identifier(s). Corresponding files will</span>
+<span class="sd">                be located in the location provided by ``folders``. Takes precendence over</span>
 <span class="sd">                ``files`` and ``folders``. Defaults to None.</span>
 <span class="sd">            ftype (str, optional): The file extension type. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            metadata (dict, optional): Additional metadata. Defaults to None.</span>
 <span class="sd">            collect_metadata (bool, optional): Whether to collect metadata. Defaults to False.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[dd.DataFrame, dict]: A tuple containing the concatenated DataFrame and metadata.</span>
+<span class="sd">            tuple[dd.DataFrame, dd.DataFrame, dict]: A tuple containing the concatenated DataFrame</span>
+<span class="sd">            and metadata.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If neither &#39;runs&#39; nor &#39;files&#39;/&#39;data_raw_dir&#39; is provided.</span>
diff --git a/sed/latest/_modules/sed/loader/flash/metadata.html b/sed/latest/_modules/sed/loader/flash/metadata.html
index 90b2854..1de53e3 100644
--- a/sed/latest/_modules/sed/loader/flash/metadata.html
+++ b/sed/latest/_modules/sed/loader/flash/metadata.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.flash.metadata &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.flash.metadata &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -450,10 +450,9 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
 <span class="sd">The module provides a MetadataRetriever class for retrieving metadata</span>
 <span class="sd">from a Scicat Instance based on beamtime and run IDs.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
 
 <span class="kn">import</span> <span class="nn">warnings</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Optional</span>
 
 <span class="kn">import</span> <span class="nn">requests</span>
 
@@ -466,7 +465,7 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
 <span class="sd">    on beamtime and run IDs.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
-    <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">metadata_config</span><span class="p">:</span> <span class="n">Dict</span><span class="p">,</span> <span class="n">scicat_token</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
+    <span class="k">def</span> <span class="fm">__init__</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">metadata_config</span><span class="p">:</span> <span class="nb">dict</span><span class="p">,</span> <span class="n">scicat_token</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="kc">None</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Initializes the MetadataRetriever class.</span>
 
@@ -495,15 +494,15 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">beamtime_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
         <span class="n">runs</span><span class="p">:</span> <span class="nb">list</span><span class="p">,</span>
-        <span class="n">metadata</span><span class="p">:</span> <span class="n">Optional</span><span class="p">[</span><span class="n">Dict</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Dict</span><span class="p">:</span>
+        <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Retrieves metadata for a given beamtime ID and list of runs.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            beamtime_id (str): The ID of the beamtime.</span>
 <span class="sd">            runs (list): A list of run IDs.</span>
-<span class="sd">            metadata (Dict, optional): The existing metadata dictionary.</span>
+<span class="sd">            metadata (dict, optional): The existing metadata dictionary.</span>
 <span class="sd">            Defaults to None.</span>
 
 <span class="sd">        Returns:</span>
@@ -528,7 +527,7 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
         <span class="k">return</span> <span class="n">metadata</span></div>
 
 
-    <span class="k">def</span> <span class="nf">_get_metadata_per_run</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">pid</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Dict</span><span class="p">:</span>
+    <span class="k">def</span> <span class="nf">_get_metadata_per_run</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">pid</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">dict</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Retrieves metadata for a specific run based on the PID.</span>
 
@@ -536,13 +535,13 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
 <span class="sd">            pid (str): The PID of the run.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Dict: The retrieved metadata.</span>
+<span class="sd">            dict: The retrieved metadata.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            Exception: If the request to retrieve metadata fails.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="n">headers2</span> <span class="o">=</span> <span class="nb">dict</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">headers</span><span class="p">)</span>
-        <span class="n">headers2</span><span class="p">[</span><span class="s2">&quot;Authorization&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="s2">&quot;Bearer </span><span class="si">{}</span><span class="s2">&quot;</span><span class="o">.</span><span class="n">format</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">token</span><span class="p">)</span>
+        <span class="n">headers2</span><span class="p">[</span><span class="s2">&quot;Authorization&quot;</span><span class="p">]</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;Bearer </span><span class="si">{</span><span class="bp">self</span><span class="o">.</span><span class="n">token</span><span class="si">}</span><span class="s2">&quot;</span>
 
         <span class="k">try</span><span class="p">:</span>
             <span class="n">dataset_response</span> <span class="o">=</span> <span class="n">requests</span><span class="o">.</span><span class="n">get</span><span class="p">(</span>
@@ -554,7 +553,9 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
             <span class="c1"># Check if response is an empty object because wrong url for older implementation</span>
             <span class="k">if</span> <span class="ow">not</span> <span class="n">dataset_response</span><span class="o">.</span><span class="n">content</span><span class="p">:</span>
                 <span class="n">dataset_response</span> <span class="o">=</span> <span class="n">requests</span><span class="o">.</span><span class="n">get</span><span class="p">(</span>
-                    <span class="bp">self</span><span class="o">.</span><span class="n">_create_old_dataset_url</span><span class="p">(</span><span class="n">pid</span><span class="p">),</span> <span class="n">headers</span><span class="o">=</span><span class="n">headers2</span><span class="p">,</span> <span class="n">timeout</span><span class="o">=</span><span class="mi">10</span>
+                    <span class="bp">self</span><span class="o">.</span><span class="n">_create_old_dataset_url</span><span class="p">(</span><span class="n">pid</span><span class="p">),</span>
+                    <span class="n">headers</span><span class="o">=</span><span class="n">headers2</span><span class="p">,</span>
+                    <span class="n">timeout</span><span class="o">=</span><span class="mi">10</span><span class="p">,</span>
                 <span class="p">)</span>
             <span class="c1"># If the dataset request is successful, return the retrieved metadata</span>
             <span class="c1"># as a JSON object</span>
@@ -566,12 +567,16 @@ <h1>Source code for sed.loader.flash.metadata</h1><div class="highlight"><pre>
 
     <span class="k">def</span> <span class="nf">_create_old_dataset_url</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">pid</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
         <span class="k">return</span> <span class="s2">&quot;</span><span class="si">{burl}</span><span class="s2">/</span><span class="si">{url}</span><span class="s2">/</span><span class="si">%2F{npid}</span><span class="s2">&quot;</span><span class="o">.</span><span class="n">format</span><span class="p">(</span>
-            <span class="n">burl</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">url</span><span class="p">,</span> <span class="n">url</span><span class="o">=</span><span class="s2">&quot;Datasets&quot;</span><span class="p">,</span> <span class="n">npid</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">_reformat_pid</span><span class="p">(</span><span class="n">pid</span><span class="p">)</span>
+            <span class="n">burl</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">url</span><span class="p">,</span>
+            <span class="n">url</span><span class="o">=</span><span class="s2">&quot;Datasets&quot;</span><span class="p">,</span>
+            <span class="n">npid</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">_reformat_pid</span><span class="p">(</span><span class="n">pid</span><span class="p">),</span>
         <span class="p">)</span>
 
     <span class="k">def</span> <span class="nf">_create_new_dataset_url</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">pid</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
         <span class="k">return</span> <span class="s2">&quot;</span><span class="si">{burl}</span><span class="s2">/</span><span class="si">{url}</span><span class="s2">/</span><span class="si">{npid}</span><span class="s2">&quot;</span><span class="o">.</span><span class="n">format</span><span class="p">(</span>
-            <span class="n">burl</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">url</span><span class="p">,</span> <span class="n">url</span><span class="o">=</span><span class="s2">&quot;Datasets&quot;</span><span class="p">,</span> <span class="n">npid</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">_reformat_pid</span><span class="p">(</span><span class="n">pid</span><span class="p">)</span>
+            <span class="n">burl</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">url</span><span class="p">,</span>
+            <span class="n">url</span><span class="o">=</span><span class="s2">&quot;Datasets&quot;</span><span class="p">,</span>
+            <span class="n">npid</span><span class="o">=</span><span class="bp">self</span><span class="o">.</span><span class="n">_reformat_pid</span><span class="p">(</span><span class="n">pid</span><span class="p">),</span>
         <span class="p">)</span>
 
     <span class="k">def</span> <span class="nf">_reformat_pid</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">pid</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
diff --git a/sed/latest/_modules/sed/loader/generic/loader.html b/sed/latest/_modules/sed/loader/generic/loader.html
index 3e65594..e3bf9f1 100644
--- a/sed/latest/_modules/sed/loader/generic/loader.html
+++ b/sed/latest/_modules/sed/loader/generic/loader.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.generic.loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.generic.loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -451,10 +451,9 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
 <span class="sd">Mostly ported from https://github.com/mpes-kit/mpes.</span>
 <span class="sd">@author: L. Rettig</span>
 <span class="sd">&quot;&quot;&quot;</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span> <span class="k">as</span> <span class="nn">ddf</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -481,25 +480,25 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.generic.loader.GenericLoader.read_dataframe">[docs]</a>
     <span class="k">def</span> <span class="nf">read_dataframe</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">runs</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">runs</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">ftype</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;parquet&quot;</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Read stored files from a folder into a dataframe.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            files (Union[str, Sequence[str]], optional): File path(s) to process.</span>
+<span class="sd">            files (str | Sequence[str], optional): File path(s) to process.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): Path to folder(s) where files</span>
+<span class="sd">            folders (str | Sequence[str], optional): Path to folder(s) where files</span>
 <span class="sd">                are stored. Path has priority such that if it&#39;s specified, the specified</span>
 <span class="sd">                files will be ignored. Defaults to None.</span>
-<span class="sd">            runs (Union[str, Sequence[str]], optional): Run identifier(s). Corresponding</span>
+<span class="sd">            runs (str | Sequence[str], optional): Run identifier(s). Corresponding</span>
 <span class="sd">                files will be located in the location provided by ``folders``. Takes</span>
-<span class="sd">                precedence over ``files`` and ``folders``. Defaults to None.</span>
+<span class="sd">                precendence over ``files`` and ``folders``. Defaults to None.</span>
 <span class="sd">            ftype (str, optional): File type to read (&#39;parquet&#39;, &#39;json&#39;, &#39;csv&#39;, etc).</span>
 <span class="sd">                If a folder path is given, all files with the specified extension are</span>
 <span class="sd">                read into the dataframe in the reading order. Defaults to &quot;parquet&quot;.</span>
@@ -512,11 +511,11 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: Raised if neither files nor folder provided.</span>
-<span class="sd">            FileNotFoundError: Raised if the files or folder cannot be found.</span>
+<span class="sd">            FileNotFoundError: Raised if the fileds or folder cannot be found.</span>
 <span class="sd">            ValueError: Raised if the file type is not supported.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[ddf.DataFrame, dict]: Dask dataframe, timed dataframe and metadata</span>
+<span class="sd">            tuple[ddf.DataFrame, ddf.DataFrame, dict]: Dask dataframe, timed dataframe and metadata</span>
 <span class="sd">            read from specified files.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="c1"># pylint: disable=duplicate-code</span>
@@ -557,21 +556,21 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">get_files_from_run_id</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">run_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
         <span class="n">extension</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Locate the files for a given run identifier.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            run_id (str): The run identifier to locate.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): The directory(ies) where the raw</span>
+<span class="sd">            folders (str | Sequence[str], optional): The directory(ies) where the raw</span>
 <span class="sd">                data is located. Defaults to None.</span>
 <span class="sd">            extension (str, optional): The file extension. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            kwds: Keyword arguments</span>
 
 <span class="sd">        Return:</span>
-<span class="sd">            str: Path to the location of run data.</span>
+<span class="sd">            list[str]: Path to the location of run data.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">raise</span> <span class="ne">NotImplementedError</span></div>
 
@@ -582,7 +581,7 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">fids</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Create count rate data for the files specified in ``fids``.</span>
 
 <span class="sd">        Args:</span>
@@ -591,7 +590,7 @@ <h1>Source code for sed.loader.generic.loader</h1><div class="highlight"><pre>
 <span class="sd">            kwds: Keyword arguments</span>
 
 <span class="sd">        Return:</span>
-<span class="sd">            Tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
+<span class="sd">            tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
 <span class="sd">            into the scan.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="c1"># TODO</span>
diff --git a/sed/latest/_modules/sed/loader/loader_interface.html b/sed/latest/_modules/sed/loader/loader_interface.html
index d768938..da3d4b4 100644
--- a/sed/latest/_modules/sed/loader/loader_interface.html
+++ b/sed/latest/_modules/sed/loader/loader_interface.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.loader_interface &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.loader_interface &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,10 +448,11 @@
   <h1>Source code for sed.loader.loader_interface</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;Interface to select a specified loader</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">glob</span>
 <span class="kn">import</span> <span class="nn">importlib.util</span>
 <span class="kn">import</span> <span class="nn">os</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
 
 <span class="kn">from</span> <span class="nn">sed.loader.base.loader</span> <span class="kn">import</span> <span class="n">BaseLoader</span>
 
@@ -496,11 +497,11 @@ <h1>Source code for sed.loader.loader_interface</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="get_names_of_all_loaders">
 <a class="viewcode-back" href="../../../sed/loader.html#sed.loader.loader_interface.get_names_of_all_loaders">[docs]</a>
-<span class="k">def</span> <span class="nf">get_names_of_all_loaders</span><span class="p">()</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+<span class="k">def</span> <span class="nf">get_names_of_all_loaders</span><span class="p">()</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Helper function to populate a list of all available loaders.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        List[str]: List of all detected loader names.</span>
+<span class="sd">        list[str]: List of all detected loader names.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">path_prefix</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;</span><span class="si">{</span><span class="n">os</span><span class="o">.</span><span class="n">path</span><span class="o">.</span><span class="n">dirname</span><span class="p">(</span><span class="vm">__file__</span><span class="p">)</span><span class="si">}{</span><span class="n">os</span><span class="o">.</span><span class="n">sep</span><span class="si">}</span><span class="s2">&quot;</span> <span class="k">if</span> <span class="n">os</span><span class="o">.</span><span class="n">path</span><span class="o">.</span><span class="n">dirname</span><span class="p">(</span><span class="vm">__file__</span><span class="p">)</span> <span class="k">else</span> <span class="s2">&quot;&quot;</span>
     <span class="n">files</span> <span class="o">=</span> <span class="n">glob</span><span class="o">.</span><span class="n">glob</span><span class="p">(</span><span class="n">os</span><span class="o">.</span><span class="n">path</span><span class="o">.</span><span class="n">join</span><span class="p">(</span><span class="n">path_prefix</span><span class="p">,</span> <span class="s2">&quot;*&quot;</span><span class="p">,</span> <span class="s2">&quot;loader.py&quot;</span><span class="p">))</span>
diff --git a/sed/latest/_modules/sed/loader/mirrorutil.html b/sed/latest/_modules/sed/loader/mirrorutil.html
index f6f5d50..026edf1 100644
--- a/sed/latest/_modules/sed/loader/mirrorutil.html
+++ b/sed/latest/_modules/sed/loader/mirrorutil.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.mirrorutil &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.mirrorutil &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -449,15 +449,16 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">module sed.loader.mirrorutil, code for transparently mirroring file system trees to a</span>
 <span class="sd">second (local) location. This is speeds up binning of data stored on network drives</span>
-<span class="sd">tremendously.</span>
+<span class="sd">tremendiously.</span>
 <span class="sd">Mostly ported from https://github.com/mpes-kit/mpes.</span>
 <span class="sd">@author: L. Rettig</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">errno</span>
 <span class="kn">import</span> <span class="nn">os</span>
 <span class="kn">import</span> <span class="nn">shutil</span>
 <span class="kn">from</span> <span class="nn">datetime</span> <span class="kn">import</span> <span class="n">datetime</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
 
 <span class="kn">import</span> <span class="nn">dask</span> <span class="k">as</span> <span class="nn">d</span>
 <span class="kn">from</span> <span class="nn">dask.diagnostics</span> <span class="kn">import</span> <span class="n">ProgressBar</span>
@@ -469,7 +470,7 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;File collecting and sorting class.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        source (str): Source path for the copy tool.</span>
+<span class="sd">        source (str): Dource path for the copy tool.</span>
 <span class="sd">        dest (str): Destination path for the copy tool.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
@@ -720,7 +721,7 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
             <span class="n">proceed</span> <span class="o">=</span> <span class="nb">input</span><span class="p">()</span>
         <span class="k">if</span> <span class="n">proceed</span> <span class="o">==</span> <span class="s2">&quot;y&quot;</span><span class="p">:</span>
             <span class="n">shutil</span><span class="o">.</span><span class="n">rmtree</span><span class="p">(</span><span class="n">oldest_scan</span><span class="p">)</span>
-            <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Removed successfully!&quot;</span><span class="p">)</span>
+            <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Removed sucessfully!&quot;</span><span class="p">)</span>
         <span class="k">else</span><span class="p">:</span>
             <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Aborted.&quot;</span><span class="p">)</span></div>
 </div>
@@ -753,7 +754,7 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
 <span class="sd">        ValueError: Raised if sdir not inside of source</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        str: The mapped target directory inside dest</span>
+<span class="sd">        str: The mapped targed directory inside dest</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
     <span class="k">if</span> <span class="ow">not</span> <span class="n">os</span><span class="o">.</span><span class="n">path</span><span class="o">.</span><span class="n">isdir</span><span class="p">(</span><span class="n">sdir</span><span class="p">):</span>
@@ -782,7 +783,7 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
 <span class="c1"># replacement for os.makedirs, which is independent of umask</span>
 <div class="viewcode-block" id="mymakedirs">
 <a class="viewcode-back" href="../../../sed/loader.html#sed.loader.mirrorutil.mymakedirs">[docs]</a>
-<span class="k">def</span> <span class="nf">mymakedirs</span><span class="p">(</span><span class="n">path</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span> <span class="n">mode</span><span class="p">:</span> <span class="nb">int</span><span class="p">,</span> <span class="n">gid</span><span class="p">:</span> <span class="nb">int</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+<span class="k">def</span> <span class="nf">mymakedirs</span><span class="p">(</span><span class="n">path</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span> <span class="n">mode</span><span class="p">:</span> <span class="nb">int</span><span class="p">,</span> <span class="n">gid</span><span class="p">:</span> <span class="nb">int</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Creates a directory path iteratively from its root</span>
 
 <span class="sd">    Args:</span>
@@ -791,7 +792,7 @@ <h1>Source code for sed.loader.mirrorutil</h1><div class="highlight"><pre>
 <span class="sd">        gid (int): Group id of created directories</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        str: Path of created directories</span>
+<span class="sd">        list[str]: Path of created directories</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
     <span class="k">if</span> <span class="ow">not</span> <span class="n">path</span> <span class="ow">or</span> <span class="n">os</span><span class="o">.</span><span class="n">path</span><span class="o">.</span><span class="n">exists</span><span class="p">(</span><span class="n">path</span><span class="p">):</span>
diff --git a/sed/latest/_modules/sed/loader/mpes/loader.html b/sed/latest/_modules/sed/loader/mpes/loader.html
index 2a13436..9e8f846 100644
--- a/sed/latest/_modules/sed/loader/mpes/loader.html
+++ b/sed/latest/_modules/sed/loader/mpes/loader.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.mpes.loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.mpes.loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -451,15 +451,13 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">Mostly ported from https://github.com/mpes-kit/mpes.</span>
 <span class="sd">@author: L. Rettig</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">datetime</span>
 <span class="kn">import</span> <span class="nn">glob</span>
 <span class="kn">import</span> <span class="nn">json</span>
 <span class="kn">import</span> <span class="nn">os</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Dict</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">urllib.error</span> <span class="kn">import</span> <span class="n">HTTPError</span>
 <span class="kn">from</span> <span class="nn">urllib.error</span> <span class="kn">import</span> <span class="n">URLError</span>
 <span class="kn">from</span> <span class="nn">urllib.request</span> <span class="kn">import</span> <span class="n">urlopen</span>
@@ -480,7 +478,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">hdf5_to_dataframe</span><span class="p">(</span>
     <span class="n">files</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
     <span class="n">group_names</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">alias_dict</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">alias_dict</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">time_stamps</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">time_stamp_alias</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;timeStamps&quot;</span><span class="p">,</span>
     <span class="n">ms_markers_group</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;msMarkers&quot;</span><span class="p">,</span>
@@ -494,7 +492,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">        files (List[str]): A list of the file paths to load.</span>
 <span class="sd">        group_names (List[str], optional): hdf5 group names to load. Defaults to load</span>
 <span class="sd">            all groups containing &quot;Stream&quot;</span>
-<span class="sd">        alias_dict (Dict[str, str], optional): Dictionary of aliases for the dataframe</span>
+<span class="sd">        alias_dict (dict[str, str], optional): Dictionary of aliases for the dataframe</span>
 <span class="sd">            columns. Keys are the hdf5 groupnames, and values the aliases. If an alias</span>
 <span class="sd">            is not found, its group name is used. Defaults to read the attribute</span>
 <span class="sd">            &quot;Name&quot; from each group.</span>
@@ -521,7 +519,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
     <span class="k">if</span> <span class="n">group_names</span> <span class="o">==</span> <span class="p">[]:</span>
         <span class="n">group_names</span><span class="p">,</span> <span class="n">alias_dict</span> <span class="o">=</span> <span class="n">get_groups_and_aliases</span><span class="p">(</span>
             <span class="n">h5file</span><span class="o">=</span><span class="n">test_proc</span><span class="p">,</span>
-            <span class="n">search_pattern</span><span class="o">=</span><span class="s2">&quot;Stream&quot;</span><span class="p">,</span>
+            <span class="n">seach_pattern</span><span class="o">=</span><span class="s2">&quot;Stream&quot;</span><span class="p">,</span>
         <span class="p">)</span>
 
     <span class="n">column_names</span> <span class="o">=</span> <span class="p">[</span><span class="n">alias_dict</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="n">group</span><span class="p">,</span> <span class="n">group</span><span class="p">)</span> <span class="k">for</span> <span class="n">group</span> <span class="ow">in</span> <span class="n">group_names</span><span class="p">]</span>
@@ -563,7 +561,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">hdf5_to_timed_dataframe</span><span class="p">(</span>
     <span class="n">files</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span>
     <span class="n">group_names</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-    <span class="n">alias_dict</span><span class="p">:</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">alias_dict</span><span class="p">:</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">time_stamps</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
     <span class="n">time_stamp_alias</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;timeStamps&quot;</span><span class="p">,</span>
     <span class="n">ms_markers_group</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;msMarkers&quot;</span><span class="p">,</span>
@@ -578,7 +576,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">        files (List[str]): A list of the file paths to load.</span>
 <span class="sd">        group_names (List[str], optional): hdf5 group names to load. Defaults to load</span>
 <span class="sd">            all groups containing &quot;Stream&quot;</span>
-<span class="sd">        alias_dict (Dict[str, str], optional): Dictionary of aliases for the dataframe</span>
+<span class="sd">        alias_dict (dict[str, str], optional): Dictionary of aliases for the dataframe</span>
 <span class="sd">            columns. Keys are the hdf5 groupnames, and values the aliases. If an alias</span>
 <span class="sd">            is not found, its group name is used. Defaults to read the attribute</span>
 <span class="sd">            &quot;Name&quot; from each group.</span>
@@ -605,7 +603,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
     <span class="k">if</span> <span class="n">group_names</span> <span class="o">==</span> <span class="p">[]:</span>
         <span class="n">group_names</span><span class="p">,</span> <span class="n">alias_dict</span> <span class="o">=</span> <span class="n">get_groups_and_aliases</span><span class="p">(</span>
             <span class="n">h5file</span><span class="o">=</span><span class="n">test_proc</span><span class="p">,</span>
-            <span class="n">search_pattern</span><span class="o">=</span><span class="s2">&quot;Stream&quot;</span><span class="p">,</span>
+            <span class="n">seach_pattern</span><span class="o">=</span><span class="s2">&quot;Stream&quot;</span><span class="p">,</span>
         <span class="p">)</span>
 
     <span class="n">column_names</span> <span class="o">=</span> <span class="p">[</span><span class="n">alias_dict</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="n">group</span><span class="p">,</span> <span class="n">group</span><span class="p">)</span> <span class="k">for</span> <span class="n">group</span> <span class="ow">in</span> <span class="n">group_names</span><span class="p">]</span>
@@ -646,31 +644,31 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.mpes.loader.get_groups_and_aliases">[docs]</a>
 <span class="k">def</span> <span class="nf">get_groups_and_aliases</span><span class="p">(</span>
     <span class="n">h5file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
-    <span class="n">search_pattern</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+    <span class="n">seach_pattern</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">alias_key</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;Name&quot;</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">Dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="nb">dict</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="nb">str</span><span class="p">]]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Read groups and aliases from a provided hdf5 file handle</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        h5file (h5py.File):</span>
 <span class="sd">            The hdf5 file handle</span>
-<span class="sd">        search_pattern (str, optional):</span>
+<span class="sd">        seach_pattern (str, optional):</span>
 <span class="sd">            Search pattern to select groups. Defaults to include all groups.</span>
 <span class="sd">        alias_key (str, optional):</span>
 <span class="sd">            Attribute key where aliases are stored. Defaults to &quot;Name&quot;.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[List[str], Dict[str, str]]:</span>
+<span class="sd">        tuple[list[str], dict[str, str]]:</span>
 <span class="sd">            The list of groupnames and the alias dictionary parsed from the file</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="c1"># get group names:</span>
     <span class="n">group_names</span> <span class="o">=</span> <span class="nb">list</span><span class="p">(</span><span class="n">h5file</span><span class="p">)</span>
 
     <span class="c1"># Filter the group names</span>
-    <span class="k">if</span> <span class="n">search_pattern</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
+    <span class="k">if</span> <span class="n">seach_pattern</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
         <span class="n">filtered_group_names</span> <span class="o">=</span> <span class="n">group_names</span>
     <span class="k">else</span><span class="p">:</span>
-        <span class="n">filtered_group_names</span> <span class="o">=</span> <span class="p">[</span><span class="n">name</span> <span class="k">for</span> <span class="n">name</span> <span class="ow">in</span> <span class="n">group_names</span> <span class="k">if</span> <span class="n">search_pattern</span> <span class="ow">in</span> <span class="n">name</span><span class="p">]</span>
+        <span class="n">filtered_group_names</span> <span class="o">=</span> <span class="p">[</span><span class="n">name</span> <span class="k">for</span> <span class="n">name</span> <span class="ow">in</span> <span class="n">group_names</span> <span class="k">if</span> <span class="n">seach_pattern</span> <span class="ow">in</span> <span class="n">name</span><span class="p">]</span>
 
     <span class="n">alias_dict</span> <span class="o">=</span> <span class="p">{}</span>
     <span class="k">for</span> <span class="n">name</span> <span class="ow">in</span> <span class="n">filtered_group_names</span><span class="p">:</span>
@@ -794,7 +792,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">            timestamp of a file. Defaults to &quot;FirstEventTimeStamp&quot;.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        np.ndarray: the array of the values at evenly spaced timing obtained from</span>
+<span class="sd">        np.ndarray: the array of the values at evently spaced timing obtained from</span>
 <span class="sd">        the ms_markers.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
 
@@ -842,7 +840,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="get_attribute">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.mpes.loader.get_attribute">[docs]</a>
 <span class="k">def</span> <span class="nf">get_attribute</span><span class="p">(</span><span class="n">h5group</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">Group</span><span class="p">,</span> <span class="n">attribute</span><span class="p">:</span> <span class="nb">str</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">str</span><span class="p">:</span>
-<span class="w">    </span><span class="sd">&quot;&quot;&quot;Reads, decodes and returns an attribute from an hdf5 group</span>
+<span class="w">    </span><span class="sd">&quot;&quot;&quot;Reads, decodes and returns an attrubute from an hdf5 group</span>
 
 <span class="sd">    Args:</span>
 <span class="sd">        h5group (h5py.Group):</span>
@@ -869,7 +867,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="k">def</span> <span class="nf">get_count_rate</span><span class="p">(</span>
     <span class="n">h5file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
     <span class="n">ms_markers_group</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;msMarkers&quot;</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Create count rate in the file from the msMarker column.</span>
 
 <span class="sd">    Args:</span>
@@ -878,7 +876,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">            are stored. Defaults to &quot;msMarkers&quot;.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[np.ndarray, np.ndarray]: The count rate in Hz and the seconds into the</span>
+<span class="sd">        tuple[np.ndarray, np.ndarray]: The count rate in Hz and the seconds into the</span>
 <span class="sd">        scan.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">ms_markers</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">asarray</span><span class="p">(</span><span class="n">h5file</span><span class="p">[</span><span class="n">ms_markers_group</span><span class="p">])</span>
@@ -905,7 +903,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">            are stored. Defaults to &quot;msMarkers&quot;.</span>
 
 <span class="sd">    Return:</span>
-<span class="sd">        float: The acquisition time of the file in seconds.</span>
+<span class="sd">        float: The acquision time of the file in seconds.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">secs</span> <span class="o">=</span> <span class="n">h5file</span><span class="p">[</span><span class="n">ms_markers_group</span><span class="p">]</span><span class="o">.</span><span class="n">len</span><span class="p">()</span> <span class="o">/</span> <span class="mi">1000</span>
 
@@ -920,7 +918,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
     <span class="n">archiver_channel</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
     <span class="n">ts_from</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
     <span class="n">ts_to</span><span class="p">:</span> <span class="nb">float</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Extract time stamps and corresponding data from and EPICS archiver instance</span>
 
 <span class="sd">    Args:</span>
@@ -930,7 +928,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">        ts_to (float): ending time stamp of the range of interest</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Tuple[List, List]: The extracted time stamps and corresponding data</span>
+<span class="sd">        tuple[np.ndarray, np.ndarray]: The extracted time stamps and corresponding data</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="n">iso_from</span> <span class="o">=</span> <span class="n">datetime</span><span class="o">.</span><span class="n">datetime</span><span class="o">.</span><span class="n">utcfromtimestamp</span><span class="p">(</span><span class="n">ts_from</span><span class="p">)</span><span class="o">.</span><span class="n">isoformat</span><span class="p">()</span>
     <span class="n">iso_to</span> <span class="o">=</span> <span class="n">datetime</span><span class="o">.</span><span class="n">datetime</span><span class="o">.</span><span class="n">utcfromtimestamp</span><span class="p">(</span><span class="n">ts_to</span><span class="p">)</span><span class="o">.</span><span class="n">isoformat</span><span class="p">()</span>
@@ -974,27 +972,27 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.mpes.loader.MpesLoader.read_dataframe">[docs]</a>
     <span class="k">def</span> <span class="nf">read_dataframe</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">runs</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">runs</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">ftype</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">time_stamps</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">ddf</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Read stored hdf5 files from a list or from folder and returns a dask</span>
 <span class="sd">        dataframe and corresponding metadata.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            files (Union[str, Sequence[str]], optional): File path(s) to process.</span>
+<span class="sd">            files (str | Sequence[str], optional): File path(s) to process.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): Path to folder(s) where files</span>
+<span class="sd">            folders (str | Sequence[str], optional): Path to folder(s) where files</span>
 <span class="sd">                are stored. Path has priority such that if it&#39;s specified, the specified</span>
 <span class="sd">                files will be ignored. Defaults to None.</span>
-<span class="sd">            runs (Union[str, Sequence[str]], optional): Run identifier(s). Corresponding</span>
+<span class="sd">            runs (str | Sequence[str], optional): Run identifier(s). Corresponding</span>
 <span class="sd">                files will be located in the location provided by ``folders``. Takes</span>
-<span class="sd">                precedence over ``files`` and ``folders``. Defaults to None.</span>
+<span class="sd">                precendence over ``files`` and ``folders``. Defaults to None.</span>
 <span class="sd">            ftype (str, optional): File extension to use. If a folder path is given,</span>
 <span class="sd">                all files with the specified extension are read into the dataframe</span>
 <span class="sd">                in the reading order. Defaults to &quot;h5&quot;.</span>
@@ -1020,7 +1018,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">            FileNotFoundError: Raised if a file or folder is not found.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[ddf.DataFrame, ddf.DataFrame, dict]: Dask dataframe, timed Dask</span>
+<span class="sd">            tuple[ddf.DataFrame, ddf.DataFrame, dict]: Dask dataframe, timed Dask</span>
 <span class="sd">            dataframe and metadata read from specified files.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="c1"># if runs is provided, try to locate the respective files relative to the provided folder.</span>
@@ -1114,21 +1112,21 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">get_files_from_run_id</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">run_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">extension</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>  <span class="c1"># noqa: ARG002</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Locate the files for a given run identifier.</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            run_id (str): The run identifier to locate.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): The directory(ies) where the raw</span>
+<span class="sd">            folders (str | Sequence[str], optional): The directory(ies) where the raw</span>
 <span class="sd">                data is located. Defaults to config[&quot;core&quot;][&quot;base_folder&quot;]</span>
 <span class="sd">            extension (str, optional): The file extension. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            kwds: Keyword arguments</span>
 
 <span class="sd">        Return:</span>
-<span class="sd">            List[str]: List of file path strings to the location of run data.</span>
+<span class="sd">            list[str]: List of file path strings to the location of run data.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">folders</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">folders</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;core&quot;</span><span class="p">][</span><span class="s2">&quot;paths&quot;</span><span class="p">][</span><span class="s2">&quot;data_raw_dir&quot;</span><span class="p">]</span>
@@ -1136,7 +1134,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
         <span class="k">if</span> <span class="nb">isinstance</span><span class="p">(</span><span class="n">folders</span><span class="p">,</span> <span class="nb">str</span><span class="p">):</span>
             <span class="n">folders</span> <span class="o">=</span> <span class="p">[</span><span class="n">folders</span><span class="p">]</span>
 
-        <span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
         <span class="k">for</span> <span class="n">folder</span> <span class="ow">in</span> <span class="n">folders</span><span class="p">:</span>
             <span class="n">run_files</span> <span class="o">=</span> <span class="n">natsorted</span><span class="p">(</span>
                 <span class="n">glob</span><span class="o">.</span><span class="n">glob</span><span class="p">(</span>
@@ -1158,11 +1156,11 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="MpesLoader.get_start_and_end_time">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.mpes.loader.MpesLoader.get_start_and_end_time">[docs]</a>
-    <span class="k">def</span> <span class="nf">get_start_and_end_time</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">get_start_and_end_time</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">float</span><span class="p">,</span> <span class="nb">float</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Extract the start and end time stamps from the loaded files</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[float, float]: A tuple containing the start and end time stamps</span>
+<span class="sd">            tuple[float, float]: A tuple containing the start and end time stamps</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="n">h5file</span> <span class="o">=</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">files</span><span class="p">[</span><span class="mi">0</span><span class="p">])</span>
         <span class="n">timestamps</span> <span class="o">=</span> <span class="n">hdf5_to_array</span><span class="p">(</span>
@@ -1322,13 +1320,13 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
                 <span class="nb">print</span><span class="p">(</span><span class="s2">&quot;Contrast aperture size not found.&quot;</span><span class="p">)</span>
 
         <span class="c1"># Storing the lens modes corresponding to lens voltages.</span>
-        <span class="c1"># Use lens voltages present in first lens_mode entry.</span>
+        <span class="c1"># Use lens volages present in first lens_mode entry.</span>
         <span class="n">lens_list</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;metadata&quot;</span><span class="p">][</span><span class="s2">&quot;lens_mode_config&quot;</span><span class="p">][</span>
             <span class="nb">next</span><span class="p">(</span><span class="nb">iter</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;metadata&quot;</span><span class="p">][</span><span class="s2">&quot;lens_mode_config&quot;</span><span class="p">]))</span>
         <span class="p">]</span><span class="o">.</span><span class="n">keys</span><span class="p">()</span>
 
         <span class="n">lens_volts</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">(</span>
-            <span class="p">[</span><span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;file&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;KTOF:Lens:</span><span class="si">{</span><span class="n">lens</span><span class="si">}</span><span class="s2">:V&quot;</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">NaN</span><span class="p">)</span> <span class="k">for</span> <span class="n">lens</span> <span class="ow">in</span> <span class="n">lens_list</span><span class="p">],</span>
+            <span class="p">[</span><span class="n">metadata</span><span class="p">[</span><span class="s2">&quot;file&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">get</span><span class="p">(</span><span class="sa">f</span><span class="s2">&quot;KTOF:Lens:</span><span class="si">{</span><span class="n">lens</span><span class="si">}</span><span class="s2">:V&quot;</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">nan</span><span class="p">)</span> <span class="k">for</span> <span class="n">lens</span> <span class="ow">in</span> <span class="n">lens_list</span><span class="p">],</span>
         <span class="p">)</span>
         <span class="k">for</span> <span class="n">mode</span><span class="p">,</span> <span class="n">value</span> <span class="ow">in</span> <span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;metadata&quot;</span><span class="p">][</span><span class="s2">&quot;lens_mode_config&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">items</span><span class="p">():</span>
             <span class="n">lens_volts_config</span> <span class="o">=</span> <span class="n">np</span><span class="o">.</span><span class="n">array</span><span class="p">([</span><span class="n">value</span><span class="p">[</span><span class="n">k</span><span class="p">]</span> <span class="k">for</span> <span class="n">k</span> <span class="ow">in</span> <span class="n">lens_list</span><span class="p">])</span>
@@ -1375,7 +1373,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">fids</span><span class="p">:</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">int</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Create count rate from the msMarker column for the files specified in</span>
 <span class="sd">        ``fids``.</span>
 
@@ -1387,7 +1385,7 @@ <h1>Source code for sed.loader.mpes.loader</h1><div class="highlight"><pre>
 <span class="sd">                - **ms_markers_group**: Name of the hdf5 group containing the ms-markers</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
+<span class="sd">            tuple[np.ndarray, np.ndarray]: Arrays containing countrate and seconds</span>
 <span class="sd">            into the scan.</span>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="n">fids</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
diff --git a/sed/latest/_modules/sed/loader/sxp/loader.html b/sed/latest/_modules/sed/loader/sxp/loader.html
index f6be18c..b83e7ba 100644
--- a/sed/latest/_modules/sed/loader/sxp/loader.html
+++ b/sed/latest/_modules/sed/loader/sxp/loader.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.sxp.loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.sxp.loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -454,16 +454,15 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">The dataframe is a amalgamation of all h5 files for a combination of runs, where the NaNs are</span>
 <span class="sd">automatically forward filled across different files.</span>
 <span class="sd">This can then be saved as a parquet for out-of-sed processing and reread back to access other</span>
-<span class="sd">sed functionality.</span>
+<span class="sd">sed funtionality.</span>
 <span class="sd">Most of the structure is identical to the FLASH loader.</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
 <span class="kn">import</span> <span class="nn">time</span>
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">functools</span> <span class="kn">import</span> <span class="n">reduce</span>
 <span class="kn">from</span> <span class="nn">pathlib</span> <span class="kn">import</span> <span class="n">Path</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Tuple</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span> <span class="k">as</span> <span class="nn">dd</span>
 <span class="kn">import</span> <span class="nn">h5py</span>
@@ -500,17 +499,17 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="o">.</span><span class="n">multi_index</span> <span class="o">=</span> <span class="p">[</span><span class="s2">&quot;trainId&quot;</span><span class="p">,</span> <span class="s2">&quot;pulseId&quot;</span><span class="p">,</span> <span class="s2">&quot;electronId&quot;</span><span class="p">]</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">index_per_electron</span><span class="p">:</span> <span class="n">MultiIndex</span> <span class="o">=</span> <span class="kc">None</span>
         <span class="bp">self</span><span class="o">.</span><span class="n">index_per_pulse</span><span class="p">:</span> <span class="n">MultiIndex</span> <span class="o">=</span> <span class="kc">None</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">failed_files_error</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
-        <span class="bp">self</span><span class="o">.</span><span class="n">array_indices</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="nb">slice</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">failed_files_error</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="bp">self</span><span class="o">.</span><span class="n">array_indices</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="nb">slice</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span>
 
 <div class="viewcode-block" id="SXPLoader.initialize_paths">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.sxp.loader.SXPLoader.initialize_paths">[docs]</a>
-    <span class="k">def</span> <span class="nf">initialize_paths</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">Path</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">initialize_paths</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">Path</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Initializes the paths based on the configuration.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[List[Path], Path]: A tuple containing a list of raw data directories</span>
+<span class="sd">            tuple[List[Path], Path]: A tuple containing a list of raw data directories</span>
 <span class="sd">            paths and the parquet data directory path.</span>
 
 <span class="sd">        Raises:</span>
@@ -562,23 +561,23 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
     <span class="k">def</span> <span class="nf">get_files_from_run_id</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">run_id</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">extension</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Returns a list of filenames for a given run located in the specified directory</span>
 <span class="sd">        for the specified data acquisition (daq).</span>
 
 <span class="sd">        Args:</span>
 <span class="sd">            run_id (str): The run identifier to locate.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): The directory(ies) where the raw</span>
+<span class="sd">            folders (str | Sequence[str], optional): The directory(ies) where the raw</span>
 <span class="sd">                data is located. Defaults to config[&quot;core&quot;][&quot;base_folder&quot;].</span>
 <span class="sd">            extension (str, optional): The file extension. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            kwds: Keyword arguments:</span>
 <span class="sd">                - daq (str): The data acquisition identifier.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            List[str]: A list of path strings representing the collected file names.</span>
+<span class="sd">            list[str]: A list of path strings representing the collected file names.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            FileNotFoundError: If no files are found for the given run in the directory.</span>
@@ -602,7 +601,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="c1"># Generate the file patterns to search for in the directory</span>
         <span class="n">file_pattern</span> <span class="o">=</span> <span class="sa">f</span><span class="s2">&quot;**/</span><span class="si">{</span><span class="n">stream_name_prefixes</span><span class="p">[</span><span class="n">daq</span><span class="p">]</span><span class="si">}{</span><span class="n">run_id</span><span class="si">}{</span><span class="n">stream_name_postfix</span><span class="si">}</span><span class="s2">*.&quot;</span> <span class="o">+</span> <span class="n">extension</span>
 
-        <span class="n">files</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">]</span> <span class="o">=</span> <span class="p">[]</span>
         <span class="c1"># Use pathlib to search for matching files in each directory</span>
         <span class="k">for</span> <span class="n">folder</span> <span class="ow">in</span> <span class="n">folders</span><span class="p">:</span>
             <span class="n">files</span><span class="o">.</span><span class="n">extend</span><span class="p">(</span>
@@ -623,7 +622,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 
 
     <span class="nd">@property</span>
-    <span class="k">def</span> <span class="nf">available_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">:</span>
+    <span class="k">def</span> <span class="nf">available_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;Returns the channel names that are available for use,</span>
 <span class="sd">        excluding pulseId, defined by the json file&quot;&quot;&quot;</span>
         <span class="n">available_channels</span> <span class="o">=</span> <span class="nb">list</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">_config</span><span class="p">[</span><span class="s2">&quot;dataframe&quot;</span><span class="p">][</span><span class="s2">&quot;channels&quot;</span><span class="p">]</span><span class="o">.</span><span class="n">keys</span><span class="p">())</span>
@@ -633,13 +632,13 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="SXPLoader.get_channels">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.sxp.loader.SXPLoader.get_channels">[docs]</a>
-    <span class="k">def</span> <span class="nf">get_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">formats</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">,</span> <span class="n">index</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">get_channels</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">formats</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">,</span> <span class="n">index</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a list of channels associated with the specified format(s).</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            formats (Union[str, List[str]]): The desired format(s)</span>
-<span class="sd">                                (&#39;per_pulse&#39;, &#39;per_electron&#39;, &#39;per_train&#39;, &#39;all&#39;).</span>
+<span class="sd">            formats (str | list[str]): The desired format(s)</span>
+<span class="sd">                (&#39;per_pulse&#39;, &#39;per_electron&#39;, &#39;per_train&#39;, &#39;all&#39;).</span>
 <span class="sd">            index (bool): If True, includes channels from the multi_index.</span>
 
 <span class="sd">        Returns:</span>
@@ -812,7 +811,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">h5_file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
         <span class="n">channel</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">np</span><span class="o">.</span><span class="n">ndarray</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a numpy array for a given channel name for a given file.</span>
 
@@ -821,7 +820,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            channel (str): The name of the channel.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[Series, np.ndarray]: A tuple containing the train ID Series and the numpy array</span>
+<span class="sd">            tuple[Series, np.ndarray]: A tuple containing the train ID Series and the numpy array</span>
 <span class="sd">            for the channel&#39;s data.</span>
 
 <span class="sd">        &quot;&quot;&quot;</span>
@@ -880,7 +879,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">        &quot;&quot;&quot;</span>
         <span class="k">if</span> <span class="bp">self</span><span class="o">.</span><span class="n">array_indices</span> <span class="ow">is</span> <span class="kc">None</span> <span class="ow">or</span> <span class="nb">len</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">array_indices</span><span class="p">)</span> <span class="o">!=</span> <span class="n">np_array</span><span class="o">.</span><span class="n">shape</span><span class="p">[</span><span class="mi">0</span><span class="p">]:</span>
             <span class="k">raise</span> <span class="ne">RuntimeError</span><span class="p">(</span>
-                <span class="s2">&quot;macrobunch_indices not set correctly, internal inconsistency detected.&quot;</span><span class="p">,</span>
+                <span class="s2">&quot;macrobunch_indices not set correctly, internal inconstency detected.&quot;</span><span class="p">,</span>
             <span class="p">)</span>
         <span class="n">train_data</span> <span class="o">=</span> <span class="p">[]</span>
         <span class="k">for</span> <span class="n">i</span><span class="p">,</span> <span class="n">_</span> <span class="ow">in</span> <span class="nb">enumerate</span><span class="p">(</span><span class="bp">self</span><span class="o">.</span><span class="n">array_indices</span><span class="p">):</span>
@@ -922,15 +921,15 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            DataFrame: The pandas DataFrame for the channel&#39;s data.</span>
 
 <span class="sd">        Notes:</span>
-<span class="sd">            - For auxiliary channels, the macrobunch resolved data is repeated 499 times to be</span>
-<span class="sd">              compared to electron resolved data for each auxiliary channel. The data is then</span>
+<span class="sd">            - For auxillary channels, the macrobunch resolved data is repeated 499 times to be</span>
+<span class="sd">              compared to electron resolved data for each auxillary channel. The data is then</span>
 <span class="sd">              converted to a multicolumn DataFrame.</span>
 <span class="sd">            - For all other pulse resolved channels, the macrobunch resolved data is exploded</span>
 <span class="sd">              to a DataFrame and the MultiIndex is set.</span>
 
 <span class="sd">        &quot;&quot;&quot;</span>
 
-        <span class="c1"># Special case for auxiliary channels</span>
+        <span class="c1"># Special case for auxillary channels</span>
         <span class="k">if</span> <span class="n">channel</span> <span class="o">==</span> <span class="s2">&quot;dldAux&quot;</span><span class="p">:</span>
             <span class="c1"># Checks the channel dictionary for correct slices and creates a multicolumn DataFrame</span>
             <span class="n">data_frames</span> <span class="o">=</span> <span class="p">(</span>
@@ -993,7 +992,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="bp">self</span><span class="p">,</span>
         <span class="n">h5_file</span><span class="p">:</span> <span class="n">h5py</span><span class="o">.</span><span class="n">File</span><span class="p">,</span>
         <span class="n">channel</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">Series</span><span class="p">,</span> <span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Series</span> <span class="o">|</span> <span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Returns a pandas DataFrame for a given channel name from a given file.</span>
 
@@ -1006,7 +1005,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            channel (str): The name of the channel.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Union[Series, DataFrame]: A pandas Series or DataFrame representing the channel&#39;s data.</span>
+<span class="sd">            Series | DataFrame: A pandas Series or DataFrame representing the channel&#39;s data.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If the channel has an undefined format.</span>
@@ -1149,7 +1148,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="SXPLoader.create_buffer_file">
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.sxp.loader.SXPLoader.create_buffer_file">[docs]</a>
-    <span class="k">def</span> <span class="nf">create_buffer_file</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">h5_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span> <span class="n">parquet_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="nb">bool</span><span class="p">,</span> <span class="ne">Exception</span><span class="p">]:</span>
+    <span class="k">def</span> <span class="nf">create_buffer_file</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">h5_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span> <span class="n">parquet_path</span><span class="p">:</span> <span class="n">Path</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">bool</span> <span class="o">|</span> <span class="ne">Exception</span><span class="p">:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Converts an HDF5 file to Parquet format to create a buffer file.</span>
 
@@ -1160,6 +1159,9 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            h5_path (Path): Path to the input HDF5 file.</span>
 <span class="sd">            parquet_path (Path): Path to the output Parquet file.</span>
 
+<span class="sd">        Returns:</span>
+<span class="sd">            bool | Exception: Collected exceptions if any.</span>
+
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If an error occurs during the conversion process.</span>
 
@@ -1183,7 +1185,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="n">data_parquet_dir</span><span class="p">:</span> <span class="n">Path</span><span class="p">,</span>
         <span class="n">detector</span><span class="p">:</span> <span class="nb">str</span><span class="p">,</span>
         <span class="n">force_recreate</span><span class="p">:</span> <span class="nb">bool</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">List</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="n">List</span><span class="p">,</span> <span class="n">List</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="nb">list</span><span class="p">[</span><span class="n">Path</span><span class="p">],</span> <span class="nb">list</span><span class="p">,</span> <span class="nb">list</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Handles the conversion of buffer files (h5 to parquet) and returns the filenames.</span>
 
@@ -1193,7 +1195,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            force_recreate (bool): Forces recreation of buffer files</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[List[Path], List, List]: Three lists, one for</span>
+<span class="sd">            tuple[list[Path], list, list]: Three lists, one for</span>
 <span class="sd">            parquet file paths, one for metadata and one for schema.</span>
 
 <span class="sd">        Raises:</span>
@@ -1293,7 +1295,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
         <span class="n">load_parquet</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">save_parquet</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="n">force_recreate</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Handles loading and saving of parquet files based on the provided parameters.</span>
 
@@ -1308,7 +1310,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <span class="sd">            save_parquet (bool, optional): Saves the entire dataframe into a parquet.</span>
 <span class="sd">            force_recreate (bool, optional): Forces recreation of buffer file.</span>
 <span class="sd">        Returns:</span>
-<span class="sd">            tuple: A tuple containing two dataframes:</span>
+<span class="sd">            tuple[dd.DataFrame, dd.DataFrame]: A tuple containing two dataframes:</span>
 <span class="sd">            - dataframe_electron: Dataframe containing the loaded/augmented electron data.</span>
 <span class="sd">            - dataframe_pulse: Dataframe containing the loaded/augmented timed data.</span>
 
@@ -1349,7 +1351,7 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
             <span class="n">dataframe</span> <span class="o">=</span> <span class="n">dd</span><span class="o">.</span><span class="n">read_parquet</span><span class="p">(</span><span class="n">filenames</span><span class="p">,</span> <span class="n">calculate_divisions</span><span class="o">=</span><span class="kc">True</span><span class="p">)</span>
 
             <span class="c1"># Channels to fill NaN values</span>
-            <span class="n">channels</span><span class="p">:</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">get_channels</span><span class="p">([</span><span class="s2">&quot;per_pulse&quot;</span><span class="p">,</span> <span class="s2">&quot;per_train&quot;</span><span class="p">])</span>
+            <span class="n">channels</span><span class="p">:</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="bp">self</span><span class="o">.</span><span class="n">get_channels</span><span class="p">([</span><span class="s2">&quot;per_pulse&quot;</span><span class="p">,</span> <span class="s2">&quot;per_train&quot;</span><span class="p">])</span>
 
             <span class="n">overlap</span> <span class="o">=</span> <span class="nb">min</span><span class="p">(</span><span class="n">file</span><span class="o">.</span><span class="n">num_rows</span> <span class="k">for</span> <span class="n">file</span> <span class="ow">in</span> <span class="n">metadata</span><span class="p">)</span>
 
@@ -1417,31 +1419,32 @@ <h1>Source code for sed.loader.sxp.loader</h1><div class="highlight"><pre>
 <a class="viewcode-back" href="../../../../sed/loader.html#sed.loader.sxp.loader.SXPLoader.read_dataframe">[docs]</a>
     <span class="k">def</span> <span class="nf">read_dataframe</span><span class="p">(</span>
         <span class="bp">self</span><span class="p">,</span>
-        <span class="n">files</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">folders</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-        <span class="n">runs</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="nb">str</span><span class="p">,</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">files</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">folders</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
+        <span class="n">runs</span><span class="p">:</span> <span class="nb">str</span> <span class="o">|</span> <span class="n">Sequence</span><span class="p">[</span><span class="nb">str</span><span class="p">]</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">ftype</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;h5&quot;</span><span class="p">,</span>
         <span class="n">metadata</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
         <span class="n">collect_metadata</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">False</span><span class="p">,</span>
         <span class="o">**</span><span class="n">kwds</span><span class="p">,</span>
-    <span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
+    <span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">tuple</span><span class="p">[</span><span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="nb">dict</span><span class="p">]:</span>
 <span class="w">        </span><span class="sd">&quot;&quot;&quot;</span>
 <span class="sd">        Read express data from the DAQ, generating a parquet in between.</span>
 
 <span class="sd">        Args:</span>
-<span class="sd">            files (Union[str, Sequence[str]], optional): File path(s) to process. Defaults to None.</span>
-<span class="sd">            folders (Union[str, Sequence[str]], optional): Path to folder(s) where files are stored</span>
+<span class="sd">            files (str | Sequence[str], optional): File path(s) to process. Defaults to None.</span>
+<span class="sd">            folders (str | Sequence[str], optional): Path to folder(s) where files are stored</span>
 <span class="sd">                Path has priority such that if it&#39;s specified, the specified files will be ignored.</span>
 <span class="sd">                Defaults to None.</span>
-<span class="sd">            runs (Union[str, Sequence[str]], optional): Run identifier(s). Corresponding files will</span>
-<span class="sd">                be located in the location provided by ``folders``. Takes precedence over</span>
+<span class="sd">            runs (str | Sequence[str], optional): Run identifier(s). Corresponding files will</span>
+<span class="sd">                be located in the location provided by ``folders``. Takes precendence over</span>
 <span class="sd">                ``files`` and ``folders``. Defaults to None.</span>
 <span class="sd">            ftype (str, optional): The file extension type. Defaults to &quot;h5&quot;.</span>
 <span class="sd">            metadata (dict, optional): Additional metadata. Defaults to None.</span>
 <span class="sd">            collect_metadata (bool, optional): Whether to collect metadata. Defaults to False.</span>
 
 <span class="sd">        Returns:</span>
-<span class="sd">            Tuple[dd.DataFrame, dict]: A tuple containing the concatenated DataFrame and metadata.</span>
+<span class="sd">            tuple[dd.DataFrame, dd.DataFrame, dict]: A tuple containing the concatenated DataFrame,</span>
+<span class="sd">            timed DataFrame, and metadata.</span>
 
 <span class="sd">        Raises:</span>
 <span class="sd">            ValueError: If neither &#39;runs&#39; nor &#39;files&#39;/&#39;data_raw_dir&#39; is provided.</span>
diff --git a/sed/latest/_modules/sed/loader/utils.html b/sed/latest/_modules/sed/loader/utils.html
index 785f8bf..768cb0a 100644
--- a/sed/latest/_modules/sed/loader/utils.html
+++ b/sed/latest/_modules/sed/loader/utils.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>sed.loader.utils &#8212; SED 0.1.10a6 documentation</title>
+    <title>sed.loader.utils &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="../../../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../../../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../../../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../../../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../../../_static/doctools.js?v=9a2dae69"></script>
     <script src="../../../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../../../genindex.html" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -448,11 +448,11 @@
   <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 <span></span><span class="sd">&quot;&quot;&quot;Utilities for loaders</span>
 <span class="sd">&quot;&quot;&quot;</span>
+<span class="kn">from</span> <span class="nn">__future__</span> <span class="kn">import</span> <span class="n">annotations</span>
+
+<span class="kn">from</span> <span class="nn">collections.abc</span> <span class="kn">import</span> <span class="n">Sequence</span>
 <span class="kn">from</span> <span class="nn">glob</span> <span class="kn">import</span> <span class="n">glob</span>
 <span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">cast</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">List</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Sequence</span>
-<span class="kn">from</span> <span class="nn">typing</span> <span class="kn">import</span> <span class="n">Union</span>
 
 <span class="kn">import</span> <span class="nn">dask.dataframe</span>
 <span class="kn">import</span> <span class="nn">numpy</span> <span class="k">as</span> <span class="nn">np</span>
@@ -471,7 +471,7 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
     <span class="n">f_end</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">f_step</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="mi">1</span><span class="p">,</span>
     <span class="n">file_sorting</span><span class="p">:</span> <span class="nb">bool</span> <span class="o">=</span> <span class="kc">True</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Collects and sorts files with specified extension from a given folder.</span>
 
 <span class="sd">    Args:</span>
@@ -487,13 +487,13 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 <span class="sd">            Defaults to True.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        List[str]: List of collected file names.</span>
+<span class="sd">        list[str]: List of collected file names.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">try</span><span class="p">:</span>
         <span class="n">files</span> <span class="o">=</span> <span class="n">glob</span><span class="p">(</span><span class="n">folder</span> <span class="o">+</span> <span class="s2">&quot;/*.&quot;</span> <span class="o">+</span> <span class="n">extension</span><span class="p">)</span>
 
         <span class="k">if</span> <span class="n">file_sorting</span><span class="p">:</span>
-            <span class="n">files</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">natsorted</span><span class="p">(</span><span class="n">files</span><span class="p">))</span>
+            <span class="n">files</span> <span class="o">=</span> <span class="n">cast</span><span class="p">(</span><span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">],</span> <span class="n">natsorted</span><span class="p">(</span><span class="n">files</span><span class="p">))</span>
 
         <span class="k">if</span> <span class="n">f_start</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span> <span class="ow">and</span> <span class="n">f_end</span> <span class="ow">is</span> <span class="ow">not</span> <span class="kc">None</span><span class="p">:</span>
             <span class="n">files</span> <span class="o">=</span> <span class="n">files</span><span class="p">[</span><span class="nb">slice</span><span class="p">(</span><span class="n">f_start</span><span class="p">,</span> <span class="n">f_end</span><span class="p">,</span> <span class="n">f_step</span><span class="p">)]</span>
@@ -508,7 +508,7 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 
 <div class="viewcode-block" id="parse_h5_keys">
 <a class="viewcode-back" href="../../../sed/loader.html#sed.loader.utils.parse_h5_keys">[docs]</a>
-<span class="k">def</span> <span class="nf">parse_h5_keys</span><span class="p">(</span><span class="n">h5_file</span><span class="p">:</span> <span class="n">File</span><span class="p">,</span> <span class="n">prefix</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="n">List</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
+<span class="k">def</span> <span class="nf">parse_h5_keys</span><span class="p">(</span><span class="n">h5_file</span><span class="p">:</span> <span class="n">File</span><span class="p">,</span> <span class="n">prefix</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="s2">&quot;&quot;</span><span class="p">)</span> <span class="o">-&gt;</span> <span class="nb">list</span><span class="p">[</span><span class="nb">str</span><span class="p">]:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Helper method which parses the channels present in the h5 file</span>
 <span class="sd">    Args:</span>
 <span class="sd">        h5_file (h5py.File): The H5 file object.</span>
@@ -516,7 +516,7 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 <span class="sd">        Defaults to an empty string.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        List[str]: A list of channel names in the H5 file.</span>
+<span class="sd">        list[str]: A list of channel names in the H5 file.</span>
 
 <span class="sd">    Raises:</span>
 <span class="sd">        Exception: If an error occurs while parsing the keys.</span>
@@ -603,19 +603,19 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 <div class="viewcode-block" id="split_dld_time_from_sector_id">
 <a class="viewcode-back" href="../../../sed/loader.html#sed.loader.utils.split_dld_time_from_sector_id">[docs]</a>
 <span class="k">def</span> <span class="nf">split_dld_time_from_sector_id</span><span class="p">(</span>
-    <span class="n">df</span><span class="p">:</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">],</span>
+    <span class="n">df</span><span class="p">:</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span>
     <span class="n">tof_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">sector_id_column</span><span class="p">:</span> <span class="nb">str</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">sector_id_reserved_bits</span><span class="p">:</span> <span class="nb">int</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
     <span class="n">config</span><span class="p">:</span> <span class="nb">dict</span> <span class="o">=</span> <span class="kc">None</span><span class="p">,</span>
-<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">Union</span><span class="p">[</span><span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">,</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">]:</span>
+<span class="p">)</span> <span class="o">-&gt;</span> <span class="n">pd</span><span class="o">.</span><span class="n">DataFrame</span> <span class="o">|</span> <span class="n">dask</span><span class="o">.</span><span class="n">dataframe</span><span class="o">.</span><span class="n">DataFrame</span><span class="p">:</span>
 <span class="w">    </span><span class="sd">&quot;&quot;&quot;Converts the 8s time in steps to time in steps and sectorID.</span>
 
 <span class="sd">    The 8s detector encodes the dldSectorID in the 3 least significant bits of the</span>
 <span class="sd">    dldTimeSteps channel.</span>
 
 <span class="sd">    Args:</span>
-<span class="sd">        df (Union[pd.DataFrame, dask.dataframe.DataFrame]): Dataframe to use.</span>
+<span class="sd">        df (pd.DataFrame | dask.dataframe.DataFrame): Dataframe to use.</span>
 <span class="sd">        tof_column (str, optional): Name of the column containing the</span>
 <span class="sd">            time-of-flight steps. Defaults to config[&quot;dataframe&quot;][&quot;tof_column&quot;].</span>
 <span class="sd">        sector_id_column (str, optional): Name of the column containing the</span>
@@ -624,7 +624,7 @@ <h1>Source code for sed.loader.utils</h1><div class="highlight"><pre>
 <span class="sd">        config (dict, optional): Configuration dictionary. Defaults to None.</span>
 
 <span class="sd">    Returns:</span>
-<span class="sd">        Union[pd.DataFrame, dask.dataframe.DataFrame]: Dataframe with the new columns.</span>
+<span class="sd">        pd.DataFrame | dask.dataframe.DataFrame: Dataframe with the new columns.</span>
 <span class="sd">    &quot;&quot;&quot;</span>
     <span class="k">if</span> <span class="n">tof_column</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
         <span class="k">if</span> <span class="n">config</span> <span class="ow">is</span> <span class="kc">None</span><span class="p">:</span>
diff --git a/sed/latest/_static/documentation_options.js b/sed/latest/_static/documentation_options.js
index df85b7e..073578e 100644
--- a/sed/latest/_static/documentation_options.js
+++ b/sed/latest/_static/documentation_options.js
@@ -1,5 +1,5 @@
 const DOCUMENTATION_OPTIONS = {
-    VERSION: '0.1.10a6',
+    VERSION: '0.1.10a5',
     LANGUAGE: 'en',
     COLLAPSE_INDEX: false,
     BUILDER: 'html',
diff --git a/sed/latest/genindex.html b/sed/latest/genindex.html
index 0189b47..2d5ea03 100644
--- a/sed/latest/genindex.html
+++ b/sed/latest/genindex.html
@@ -7,7 +7,7 @@
   <head>
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
-    <title>Index &#8212; SED 0.1.10a6 documentation</title>
+    <title>Index &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -34,7 +34,7 @@
 <link rel="preload" as="script" href="_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="_static/documentation_options.js?v=7e069785"></script>
+    <script src="_static/documentation_options.js?v=49fe1def"></script>
     <script src="_static/doctools.js?v=9a2dae69"></script>
     <script src="_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -43,7 +43,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="#" />
@@ -121,7 +121,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -697,7 +697,7 @@ <h2 id="D">D</h2>
   <td style="width: 33%; vertical-align: top;"><ul>
       <li><a href="sed/calibrator.html#sed.calibrator.delay.DelayCalibrator">DelayCalibrator (class in sed.calibrator.delay)</a>
 </li>
-      <li><a href="sed/calibrator.html#sed.calibrator.momentum.detector_coordinates_2_k_coordinates">detector_coordinates_2_k_coordinates() (in module sed.calibrator.momentum)</a>
+      <li><a href="sed/calibrator.html#sed.calibrator.momentum.detector_coordiantes_2_k_koordinates">detector_coordiantes_2_k_koordinates() (in module sed.calibrator.momentum)</a>
 </li>
       <li><a href="sed/calibrator.html#sed.calibrator.momentum.dictmerge">dictmerge() (in module sed.calibrator.momentum)</a>
 </li>
diff --git a/sed/latest/index.html b/sed/latest/index.html
index 04a4531..9251a4e 100644
--- a/sed/latest/index.html
+++ b/sed/latest/index.html
@@ -9,7 +9,7 @@
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 <meta content="Top-level documentation for sed, with links to the rest of the site.. " lang="en" name="description" xml:lang="en" />
 
-    <title>SED documentation &#8212; SED 0.1.10a6 documentation</title>
+    <title>SED documentation &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -36,7 +36,7 @@
 <link rel="preload" as="script" href="_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="_static/documentation_options.js?v=7e069785"></script>
+    <script src="_static/documentation_options.js?v=49fe1def"></script>
     <script src="_static/doctools.js?v=9a2dae69"></script>
     <script src="_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -47,7 +47,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="genindex.html" />
@@ -126,7 +126,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/misc/contributing.html b/sed/latest/misc/contributing.html
index 8fe7d67..6c62640 100644
--- a/sed/latest/misc/contributing.html
+++ b/sed/latest/misc/contributing.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Contributing to sed &#8212; SED 0.1.10a6 documentation</title>
+    <title>Contributing to sed &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/misc/contribution.html b/sed/latest/misc/contribution.html
index 9fa6c6c..d35970d 100644
--- a/sed/latest/misc/contribution.html
+++ b/sed/latest/misc/contribution.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Development &#8212; SED 0.1.10a6 documentation</title>
+    <title>Development &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/misc/maintain.html b/sed/latest/misc/maintain.html
index 07b4630..2374b9b 100644
--- a/sed/latest/misc/maintain.html
+++ b/sed/latest/misc/maintain.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>How to Maintain &#8212; SED 0.1.10a6 documentation</title>
+    <title>How to Maintain &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/objects.inv b/sed/latest/objects.inv
index af0df1f0af2b28e8575089c3ea5ee3c203288db8..07cdf5ab70b93b815442e9907cce047423ffec09 100644
GIT binary patch
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     <meta name="viewport" content="width=device-width, initial-scale=1.0" />
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+    <title>Python Module Index &#8212; SED 0.1.10a5 documentation</title>
   
   
   
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@@ -124,7 +124,7 @@
   
   
   
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+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
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index 2d82818..1a5158c 100644
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+++ b/sed/latest/search.html
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-    <meta name="viewport" content="width=device-width, initial-scale=1.0" /><title>Search - SED 0.1.10a6 documentation</title>
+    <meta name="viewport" content="width=device-width, initial-scale=1.0" /><title>Search - SED 0.1.10a5 documentation</title>
   
   
   
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false]], "concatenate_channels() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.concatenate_channels", false]], "config (sed.core.sedprocessor property)": [[8, "sed.core.SedProcessor.config", false]], "coordinate_transform() (sed.calibrator.momentum.momentumcorrector method)": [[6, "sed.calibrator.momentum.MomentumCorrector.coordinate_transform", false]], "copy() (sed.loader.mirrorutil.copytool method)": [[13, "sed.loader.mirrorutil.CopyTool.copy", false]], "copytool (class in sed.loader.mirrorutil)": [[13, "sed.loader.mirrorutil.CopyTool", false]], "correction_function() (in module sed.calibrator.energy)": [[6, "sed.calibrator.energy.correction_function", false]], "cpy() (sed.core.sedprocessor method)": [[8, "sed.core.SedProcessor.cpy", false]], "create_buffer_file() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.create_buffer_file", false]], "create_buffer_file() (sed.loader.sxp.loader.sxploader method)": 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false]], "create_dataframe_per_pulse() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.create_dataframe_per_pulse", false]], "create_dataframe_per_pulse() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.create_dataframe_per_pulse", false]], "create_dataframe_per_train() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.create_dataframe_per_train", false]], "create_dataframe_per_train() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.create_dataframe_per_train", false]], "create_multi_index_per_electron() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.create_multi_index_per_electron", false]], "create_multi_index_per_electron() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.create_multi_index_per_electron", false]], "create_multi_index_per_pulse() 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"define_features() (sed.core.sedprocessor method)": [[8, "sed.core.SedProcessor.define_features", false]], "delaycalibrator (class in sed.calibrator.delay)": [[6, "sed.calibrator.delay.DelayCalibrator", false]], "detector_coordiantes_2_k_koordinates() (in module sed.calibrator.momentum)": [[6, "sed.calibrator.momentum.detector_coordiantes_2_k_koordinates", false]], "dictmerge() (in module sed.calibrator.momentum)": [[6, "sed.calibrator.momentum.dictmerge", false]], "drop_column() (in module sed.core.dfops)": [[10, "sed.core.dfops.drop_column", false]], "dup (sed.calibrator.energy.energycalibrator property)": [[6, "sed.calibrator.energy.EnergyCalibrator.dup", false]], "duplicateentryerror": [[14, "sed.core.metadata.DuplicateEntryError", false]], "energycalibrator (class in sed.calibrator.energy)": [[6, "sed.calibrator.energy.EnergyCalibrator", false]], "existing_data_paths (sed.dataset.dataset.dataset property)": [[9, "sed.dataset.dataset.Dataset.existing_data_paths", false]], "extract_bias() (in module sed.calibrator.energy)": [[6, "sed.calibrator.energy.extract_bias", false]], "extract_delay_stage_parameters() (in module sed.calibrator.delay)": [[6, "sed.calibrator.delay.extract_delay_stage_parameters", false]], "feature_extract() (sed.calibrator.energy.energycalibrator method)": [[6, "sed.calibrator.energy.EnergyCalibrator.feature_extract", false]], "feature_extract() (sed.calibrator.momentum.momentumcorrector method)": [[6, "sed.calibrator.momentum.MomentumCorrector.feature_extract", false]], "feature_select() (sed.calibrator.momentum.momentumcorrector method)": [[6, "sed.calibrator.momentum.MomentumCorrector.feature_select", false]], "features (sed.calibrator.momentum.momentumcorrector property)": [[6, "sed.calibrator.momentum.MomentumCorrector.features", false]], "filename (sed.dataset.dataset.datasetsmanager attribute)": [[9, "sed.dataset.dataset.DatasetsManager.FILENAME", false]], "files (sed.core.sedprocessor property)": [[8, 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"sed.loader.base.loader.BaseLoader.get_count_rate", false]], "get_count_rate() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.get_count_rate", false]], "get_count_rate() (sed.loader.generic.loader.genericloader method)": [[13, "sed.loader.generic.loader.GenericLoader.get_count_rate", false]], "get_count_rate() (sed.loader.mpes.loader.mpesloader method)": [[13, "sed.loader.mpes.loader.MpesLoader.get_count_rate", false]], "get_count_rate() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.get_count_rate", false]], "get_elapsed_time() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.get_elapsed_time", false]], "get_elapsed_time() (sed.loader.base.loader.baseloader method)": [[13, "sed.loader.base.loader.BaseLoader.get_elapsed_time", false]], "get_elapsed_time() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.get_elapsed_time", false]], "get_elapsed_time() 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"get_files_from_run_id() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.get_files_from_run_id", false]], "get_groups_and_aliases() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.get_groups_and_aliases", false]], "get_loader() (in module sed.loader.loader_interface)": [[13, "sed.loader.loader_interface.get_loader", false]], "get_metadata() (sed.loader.flash.metadata.metadataretriever method)": [[13, "sed.loader.flash.metadata.MetadataRetriever.get_metadata", false]], "get_names_of_all_loaders() (in module sed.loader.loader_interface)": [[13, "sed.loader.loader_interface.get_names_of_all_loaders", false]], "get_normalization_histogram() (sed.core.sedprocessor method)": [[8, "sed.core.SedProcessor.get_normalization_histogram", false]], "get_start_and_end_time() (sed.loader.mpes.loader.mpesloader method)": [[13, "sed.loader.mpes.loader.MpesLoader.get_start_and_end_time", false]], "get_target_dir() (in module sed.loader.mirrorutil)": [[13, "sed.loader.mirrorutil.get_target_dir", false]], "grid_histogram() (in module sed.diagnostics)": [[11, "sed.diagnostics.grid_histogram", false]], "hdf5_to_array() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.hdf5_to_array", false]], "hdf5_to_dataframe() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.hdf5_to_dataframe", false]], "hdf5_to_timed_array() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.hdf5_to_timed_array", false]], "hdf5_to_timed_dataframe() (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.hdf5_to_timed_dataframe", false]], "initialize_paths() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.initialize_paths", false]], "initialize_paths() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.initialize_paths", false]], "json_path (sed.dataset.dataset.datasetsmanager attribute)": [[9, "sed.dataset.dataset.DatasetsManager.json_path", false]], "load() (sed.core.sedprocessor method)": [[8, "sed.core.SedProcessor.load", false]], "load_bias_series() (sed.core.sedprocessor method)": [[8, "sed.core.SedProcessor.load_bias_series", false]], "load_config() (in module sed.core.config)": [[7, "sed.core.config.load_config", false]], "load_data() (sed.calibrator.energy.energycalibrator method)": [[6, "sed.calibrator.energy.EnergyCalibrator.load_data", false]], "load_data() (sed.calibrator.momentum.momentumcorrector method)": [[6, "sed.calibrator.momentum.MomentumCorrector.load_data", false]], "load_datasets_dict() (sed.dataset.dataset.datasetsmanager static method)": [[9, "sed.dataset.dataset.DatasetsManager.load_datasets_dict", false]], "load_dfield() (in module sed.calibrator.momentum)": [[6, "sed.calibrator.momentum.load_dfield", false]], "load_h5() (in module sed.io)": [[12, "sed.io.load_h5", false]], "load_tiff() (in module sed.io)": [[12, "sed.io.load_tiff", false]], "loader (in module sed.loader.base.loader)": [[13, "sed.loader.base.loader.LOADER", false]], "loader (in module sed.loader.flash.loader)": [[13, "sed.loader.flash.loader.LOADER", false]], "loader (in module sed.loader.generic.loader)": [[13, "sed.loader.generic.loader.LOADER", false]], "loader (in module sed.loader.mpes.loader)": [[13, "sed.loader.mpes.loader.LOADER", false]], "loader (in module sed.loader.sxp.loader)": [[13, "sed.loader.sxp.loader.LOADER", false]], "map_columns_2d() (in module sed.core.dfops)": [[10, "sed.core.dfops.map_columns_2d", false]], "metadata (sed.core.metadata.metahandler property)": [[14, "sed.core.metadata.MetaHandler.metadata", false]], "metadataretriever (class in sed.loader.flash.metadata)": [[13, "sed.loader.flash.metadata.MetadataRetriever", false]], "metahandler (class in sed.core.metadata)": [[14, "sed.core.metadata.MetaHandler", false]], "mm_to_ps() (in module sed.calibrator.delay)": [[6, "sed.calibrator.delay.mm_to_ps", false]], "module": [[5, "module-sed.binning", false], [5, "module-sed.binning.numba_bin", false], [5, "module-sed.binning.utils", false], [6, "module-sed.calibrator.delay", false], [6, "module-sed.calibrator.energy", false], [6, "module-sed.calibrator.momentum", false], [7, "module-sed.core.config", false], [8, "module-sed.core", false], [9, "module-sed.dataset.dataset", false], [10, "module-sed.core.dfops", false], [11, "module-sed.diagnostics", false], [12, "module-sed.io", false], [13, "module-sed.loader.base.loader", false], [13, "module-sed.loader.flash.loader", false], [13, "module-sed.loader.flash.metadata", false], [13, "module-sed.loader.generic.loader", false], [13, "module-sed.loader.loader_interface", false], [13, "module-sed.loader.mirrorutil", false], [13, "module-sed.loader.mpes.loader", false], [13, "module-sed.loader.sxp.loader", false], [13, "module-sed.loader.utils", false], [14, "module-sed.core.metadata", false]], "momentumcorrector (class in sed.calibrator.momentum)": [[6, 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"sed.calibrator.energy.EnergyCalibrator.nranges", false]], "ntraces (sed.calibrator.energy.energycalibrator property)": [[6, "sed.calibrator.energy.EnergyCalibrator.ntraces", false]], "numba_histogramdd() (in module sed.binning.numba_bin)": [[5, "sed.binning.numba_bin.numba_histogramdd", false]], "offset_by_other_columns() (in module sed.core.dfops)": [[10, "sed.core.dfops.offset_by_other_columns", false]], "parquet_handler() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.parquet_handler", false]], "parquet_handler() (sed.loader.sxp.loader.sxploader method)": [[13, "sed.loader.sxp.loader.SXPLoader.parquet_handler", false]], "parse_config() (in module sed.core.config)": [[7, "sed.core.config.parse_config", false]], "parse_h5_keys() (in module sed.loader.utils)": [[13, "sed.loader.utils.parse_h5_keys", false]], "parse_metadata() (sed.loader.flash.loader.flashloader method)": [[13, "sed.loader.flash.loader.FlashLoader.parse_metadata", false]], 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+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
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@@ -478,22 +478,21 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 <p>sed.binning module easy access APIs</p>
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.binning.bin_dataframe">
-<span class="sig-prename descclassname"><span class="pre">sed.binning.</span></span><span class="sig-name descname"><span class="pre">bin_dataframe</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">df</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">bins</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">100</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">axes</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">ranges</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">hist_mode</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'numba'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">mode</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'fast'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">jitter</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">pbar</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">n_cores</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">9</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">threads_per_worker</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">4</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">threadpool_api</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'blas'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">return_partitions</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/binning/binning.html#bin_dataframe"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.binning.bin_dataframe" title="Link to this definition">#</a></dt>
+<span class="sig-prename descclassname"><span class="pre">sed.binning.</span></span><span class="sig-name descname"><span class="pre">bin_dataframe</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">df</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">bins</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">100</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">axes</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">ranges</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">hist_mode</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'numba'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">mode</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'fast'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">jitter</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">pbar</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">n_cores</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">3</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">threads_per_worker</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">4</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">threadpool_api</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'blas'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">return_partitions</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/binning/binning.html#bin_dataframe"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.binning.bin_dataframe" title="Link to this definition">#</a></dt>
 <dd><p>Computes the n-dimensional histogram on columns of a dataframe,
 parallelized.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – <p>a dask.DataFrame on which to perform the
-histogram.
-bins (int, dict, Sequence[int], Sequence[np.ndarray], Sequence[tuple], optional):
-Definition of the bins. Can be any of the following cases:</p>
+<li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – a dask.DataFrame on which to perform the
+histogram.</p></li>
+<li><p><strong>bins</strong> (<em>int</em><em> | </em><em>dict</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – <p>Definition of the bins. Can be any of the following cases:</p>
 <blockquote>
 <div><ul>
 <li><p>an integer describing the number of bins for all dimensions. This
 requires “ranges” to be defined as well.</p></li>
 <li><p>A sequence containing one entry of the following types for each
-dimension:</p>
+dimenstion:</p>
 <blockquote>
 <div><ul class="simple">
 <li><p>an integer describing the number of bins. This requires “ranges”
@@ -516,7 +515,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 the order of the dimensions in the resulting array. Only not required if
 bins are provided as dictionary containing the axis names.
 Defaults to None.</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
 the start and end point of the binning range. Required if bins given as
 int or Sequence[int]. Defaults to None.</p></li>
 <li><p><strong>hist_mode</strong> (<em>str</em><em>, </em><em>optional</em>) – <p>Histogram calculation method.</p>
@@ -539,11 +538,11 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 </div></blockquote>
 <p>Defaults to “fast”.</p>
 </p></li>
-<li><p><strong>jitter</strong> (<em>Union</em><em>[</em><em>list</em><em>, </em><em>dict</em><em>]</em><em>, </em><em>optional</em>) – a list of the axes on which to apply
+<li><p><strong>jitter</strong> (<em>list</em><em> | </em><em>dict</em><em>, </em><em>optional</em>) – a list of the axes on which to apply
 jittering. To specify the jitter amplitude or method (normal or uniform
 noise) a dictionary can be passed. This should look like
 jitter={‘axis’:{‘amplitude’:0.5,’mode’:’uniform’}}.
-This example also shows the default behavior, in case None is
+This example also shows the default behaviour, in case None is
 passed in the dictionary, or jitter is a list of strings.
 Warning: this is not the most performing approach. applying jitter
 on the dataframe before calling the binning is much faster.
@@ -559,7 +558,6 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 n+1, where the last dimension corresponds to the dataframe partitions.
 Defaults to False.</p></li>
 <li><p><strong>**kwds</strong> – Keyword arguments passed to <code class="docutils literal notranslate"><span class="pre">dask.compute()</span></code></p></li>
-<li><p><strong>bins</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Union</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">int</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">dict</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">typing.Sequence</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">int</span></code>], <code class="xref py py-class docutils literal notranslate"><span class="pre">typing.Sequence</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">numpy.ndarray</span></code>], <code class="xref py py-class docutils literal notranslate"><span class="pre">typing.Sequence</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">tuple</span></code>]]</span>, default: <code class="docutils literal notranslate"><span class="pre">100</span></code>)</p></li>
 </ul>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
@@ -586,15 +584,15 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>part</strong> (<em>Union</em><em>[</em><em>dask.dataframe.DataFrame</em><em>, </em><em>pd.DataFrame</em><em>]</em>) – dataframe on which
+<li><p><strong>part</strong> (<em>dask.dataframe.DataFrame</em><em> | </em><em>pd.DataFrame</em>) – dataframe on which
 to perform the histogram. Usually a partition of a dask DataFrame.</p></li>
-<li><p><strong>bins</strong> (<em>int</em><em>, </em><em>dict</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>]</em><em>, </em><em>Sequence</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – <p>Definition of the bins. Can  be any of the following cases:</p>
+<li><p><strong>bins</strong> (<em>int</em><em> | </em><em>dict</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – <p>Definition of the bins. Can  be any of the following cases:</p>
 <blockquote>
 <div><ul>
 <li><p>an integer describing the number of bins for all dimensions. This
 requires “ranges” to be defined as well.</p></li>
 <li><p>A sequence containing one entry of the following types for each
-dimension:</p>
+dimenstion:</p>
 <blockquote>
 <div><ul class="simple">
 <li><p>an integer describing the number of bins. This requires “ranges”
@@ -617,7 +615,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 the order of the dimensions in the resulting array. Only not required if
 bins are provided as dictionary containing the axis names.
 Defaults to None.</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
 the start and end point of the binning range. Required if bins given as
 int or Sequence[int]. Defaults to None.</p></li>
 <li><p><strong>hist_mode</strong> (<em>str</em><em>, </em><em>optional</em>) – <p>Histogram calculation method.</p>
@@ -629,18 +627,18 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 </div></blockquote>
 <p>Defaults to “numba”.</p>
 </p></li>
-<li><p><strong>jitter</strong> (<em>Union</em><em>[</em><em>list</em><em>, </em><em>dict</em><em>]</em><em>, </em><em>optional</em>) – a list of the axes on which to apply
+<li><p><strong>jitter</strong> (<em>list</em><em> | </em><em>dict</em><em>, </em><em>optional</em>) – a list of the axes on which to apply
 jittering. To specify the jitter amplitude or method (normal or uniform
 noise) a dictionary can be passed. This should look like
 jitter={‘axis’:{‘amplitude’:0.5,’mode’:’uniform’}}.
-This example also shows the default behavior, in case None is
+This example also shows the default behaviour, in case None is
 passed in the dictionary, or jitter is a list of strings.
 Warning: this is not the most performing approach. Applying jitter
 on the dataframe before calling the binning is much faster.
 Defaults to None.</p></li>
 <li><p><strong>return_edges</strong> (<em>bool</em><em>, </em><em>optional</em>) – If True, returns a list of D arrays
 describing the bin edges for each dimension, similar to the
-behavior of <code class="docutils literal notranslate"><span class="pre">np.histogramdd</span></code>. Defaults to False.</p></li>
+behaviour of <code class="docutils literal notranslate"><span class="pre">np.histogramdd</span></code>. Defaults to False.</p></li>
 <li><p><strong>skip_test</strong> (<em>bool</em><em>, </em><em>optional</em>) – Turns off input check and data transformation.
 Defaults to False as it is intended for internal use only.
 Warning: setting this True might make error tracking difficult.</p></li>
@@ -656,7 +654,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 </dd>
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p><p>2-element tuple returned only when
-returnEdges is True. Otherwise only hist is returned.</p>
+return_edges is True. Otherwise only hist is returned.</p>
 <ul class="simple">
 <li><p><strong>hist</strong>: The result of the n-dimensional binning</p></li>
 <li><p><strong>edges</strong>: A list of D arrays describing the bin edges for each dimension.</p></li>
@@ -664,7 +662,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 </p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Union[np.ndarray, Tuple[np.ndarray, list]]</p>
+<dd class="field-even"><p>np.ndarray | tuple[np.ndarray</p>
 </dd>
 </dl>
 </dd></dl>
@@ -699,7 +697,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.binning.numba_bin.numba_histogramdd">
 <span class="sig-prename descclassname"><span class="pre">sed.binning.numba_bin.</span></span><span class="sig-name descname"><span class="pre">numba_histogramdd</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">sample</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">bins</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">ranges</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/binning/numba_bin.html#numba_histogramdd"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.binning.numba_bin.numba_histogramdd" title="Link to this definition">#</a></dt>
-<dd><p>Multidimensional histogram function, powered by Numba.</p>
+<dd><p>Multidimensional histogramming function, powered by Numba.</p>
 <p>Behaves in total much like numpy.histogramdd. Returns uint32 arrays.
 This was chosen because it has a significant performance improvement over
 uint64 for large binning volumes. Be aware that this can cause overflows
@@ -709,8 +707,8 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>sample</strong> (<em>np.ndarray</em>) – The data to be histogram’d with shape N,D</p></li>
-<li><p><strong>bins</strong> (<em>Union</em><em>[</em><em>int</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – The number
+<li><p><strong>sample</strong> (<em>np.ndarray</em>) – The data to be histogrammed with shape N,D</p></li>
+<li><p><strong>bins</strong> (<em>int</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>] </em><em>| </em><em>np.ndarray</em>) – The number
 of bins for each dimension D, or a sequence of bin edges on which to calculate
 the histogram.</p></li>
 <li><p><strong>ranges</strong> (<em>Sequence</em><em>, </em><em>optional</em>) – The range(s) to use for binning when bins is a sequence
@@ -736,7 +734,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 </p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[np.ndarray, List[np.ndarray]]</p>
+<dd class="field-even"><p>tuple[np.ndarray, list[np.ndarray]]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -752,13 +750,13 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>bins</strong> (<em>int</em><em>, </em><em>dict</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>]</em><em>, </em><em>Sequence</em><em>[</em><em>tuple</em><em>]</em>) – <p>Definition of the bins. Can  be any of the following cases:</p>
+<li><p><strong>bins</strong> (<em>int</em><em> | </em><em>dict</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>np.ndarray</em><em>] </em><em>| </em><em>Sequence</em><em>[</em><em>tuple</em><em>]</em>) – <p>Definition of the bins. Can  be any of the following cases:</p>
 <blockquote>
 <div><ul>
 <li><p>an integer describing the number of bins for all dimensions. This
 requires “ranges” to be defined as well.</p></li>
 <li><p>A sequence containing one entry of the following types for each
-dimension:</p>
+dimenstion:</p>
 <blockquote>
 <div><ul class="simple">
 <li><p>an integer describing the number of bins. This requires “ranges”
@@ -780,7 +778,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 the order of the dimensions in the resulting array. Only not required if
 bins are provided as dictionary containing the axis names.
 Defaults to None.</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Sequence of tuples containing
 the start and end point of the binning range. Required if bins given as
 int or Sequence[int]. Defaults to None.</p></li>
 </ul>
@@ -798,7 +796,7 @@ <h1>Binning<a class="headerlink" href="#binning" title="Link to this heading">#<
 containing lists of bin centers, axes, and ranges.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[Union[List[int], List[np.ndarray]], List[Tuple[float, float]]]</p>
+<dd class="field-even"><p>tuple[list[int] | list[np.ndarray], list[str], list[tuple[float, float]]]</p>
 </dd>
 </dl>
 </dd></dl>
diff --git a/sed/latest/sed/calibrator.html b/sed/latest/sed/calibrator.html
index f0c336b..b057051 100644
--- a/sed/latest/sed/calibrator.html
+++ b/sed/latest/sed/calibrator.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Calibrator &#8212; SED 0.1.10a6 documentation</title>
+    <title>Calibrator &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -485,9 +485,9 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>data</strong> (<em>Union</em><em>[</em><em>xr.DataArray</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Multidimensional hypervolume
+<li><p><strong>data</strong> (<em>xr.DataArray</em><em> | </em><em>np.ndarray</em><em>, </em><em>optional</em>) – Multidimensional hypervolume
 containing the data. Defaults to None.</p></li>
-<li><p><strong>bin_ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – Binning ranges of the data volume, if
+<li><p><strong>bin_ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – Binning ranges of the data volume, if
 provided as np.ndarray. Defaults to None.</p></li>
 <li><p><strong>rotsym</strong> (<em>int</em><em>, </em><em>optional</em>) – Rotational symmetry of the data. Defaults to 6.</p></li>
 <li><p><strong>config</strong> (<em>dict</em><em>, </em><em>optional</em>) – Config dictionary. Defaults to None.</p></li>
@@ -530,8 +530,8 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>data</strong> (<em>Union</em><em>[</em><em>xr.DataArray</em><em>, </em><em>np.ndarray</em><em>]</em>) – 2D or 3D data array, either as np.ndarray or xr.DataArray.</p></li>
-<li><p><strong>bin_ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – Binning ranges. Needs to be provided in case the data are given
+<li><p><strong>data</strong> (<em>xr.DataArray</em><em> | </em><em>np.ndarray</em>) – 2D or 3D data array, either as np.ndarray or xr.DataArray.</p></li>
+<li><p><strong>bin_ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – Binning ranges. Needs to be provided in case the data are given
 as np.ndarray. Otherwise, they are determined from the coords of
 the xr.DataArray. Defaults to None.</p></li>
 </ul>
@@ -566,7 +566,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>selector</strong> (<em>Union</em><em>[</em><em>slice</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>int</em><em>]</em>) – Selector along the specified axis to extract the slice (image). Use
+<li><p><strong>selector</strong> (<em>slice</em><em> | </em><em>list</em><em>[</em><em>int</em><em>] </em><em>| </em><em>int</em>) – Selector along the specified axis to extract the slice (image). Use
 the construct slice(start, stop, step) to select a range of images
 and sum them. Use an integer to specify only a particular slice.</p></li>
 <li><p><strong>axis</strong> (<em>int</em><em>, </em><em>optional</em>) – Axis along which to select the image. Defaults to 2.</p></li>
@@ -593,7 +593,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <li><p><strong>symscores</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to calculate symmetry scores. Defaults to False.</p></li>
 <li><p><strong>**kwds</strong> – <p>Keyword arguments.</p>
 <ul>
-<li><p><strong>symtype</strong> (str): Type of symmetry scores to calculate
+<li><p><strong>symtype</strong> (str): Type of symmetry scores to calculte
 if symscores is True. Defaults to “rotation”.</p></li>
 </ul>
 </p></li>
@@ -703,13 +703,13 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 symmetrization. Defaults to True.</p></li>
 <li><p><strong>interp_order</strong> (<em>int</em><em>, </em><em>optional</em>) – Order of interpolation (see <code class="docutils literal notranslate"><span class="pre">scipy.ndimage.map_coordinates()</span></code>).
 Defaults to 1.</p></li>
-<li><p><strong>ascale</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Union</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">float</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">list</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">tuple</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">numpy.ndarray</span></code>, <code class="xref py py-obj docutils literal notranslate"><span class="pre">None</span></code>]</span>, default: <code class="docutils literal notranslate"><span class="pre">None</span></code>) – (Union[float, np.ndarray], optional): Scale parameter determining a relative
-scale for each symmetry feature. If provided as single float, rotsym has to be 4.
-This parameter describes the relative scaling between the two orthogonal symmetry
-directions (for an orthorhombic system). This requires the correction points to be
-located along the principal axes (X/Y points of the Brillouin zone). Otherwise, an
-array with <code class="docutils literal notranslate"><span class="pre">rotsym</span></code> elements is expected, containing relative scales for each
-feature. Defaults to an array of equal scales.</p></li>
+<li><p><strong>ascale</strong> (<span class="sphinx_autodoc_typehints-type">float | list | tuple | np.ndarray</span>, default: <code class="docutils literal notranslate"><span class="pre">None</span></code>) – (float | list | tuple | np.ndarray, optional): Scale parameter determining a
+relative scale for each symmetry feature. If provided as single float, rotsym has
+to be 4. This parameter describes the relative scaling between the two orthogonal
+symmetry directions (for an orthorhombic system). This requires the correction
+points to be located along the principal axes (X/Y points of the Brillouin zone).
+Otherwise, an array with <code class="docutils literal notranslate"><span class="pre">rotsym</span></code> elements is expected, containing relative
+scales for each feature. Defaults to an array of equal scales.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to report the used landmarks for correction.
 Defaults to True.</p></li>
 <li><p><strong>**kwds</strong> – <p>keyword arguments:</p>
@@ -805,7 +805,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <li><p>rotation_auto.</p></li>
 <li><p>scaling.</p></li>
 <li><p>scaling_auto.</p></li>
-<li><p>homography.</p></li>
+<li><p>homomorphy.</p></li>
 </ul>
 </p></li>
 <li><p><strong>keep</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to keep the specified coordinate transform in
@@ -838,7 +838,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>transformations</strong> (<em>dict</em><em>, </em><em>optional</em>) – Dictionary with transformations.
-Defaults to self.transformations or config[“momentum”][“transformations”].</p></li>
+Defaults to self.transformations or config[“momentum”][“transformtions”].</p></li>
 <li><p><strong>apply</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to directly apply the provided transformations.
 Defaults to False.</p></li>
 <li><p><strong>reset</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to reset the correction before transformation. Defaults to True.</p></li>
@@ -873,7 +873,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <li><p><strong>origin</strong> (<em>str</em><em>, </em><em>optional</em>) – Figure origin specification (‘lower’ or ‘upper’).
 Defaults to “lower”.</p></li>
 <li><p><strong>cmap</strong> (<em>str</em><em>, </em><em>optional</em>) – Colormap specification. Defaults to “terrain_r”.</p></li>
-<li><p><strong>figsize</strong> (<em>Tuple</em><em>[</em><em>int</em><em>, </em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Figure size. Defaults to (4, 4).</p></li>
+<li><p><strong>figsize</strong> (<em>tuple</em><em>[</em><em>int</em><em>, </em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Figure size. Defaults to (4, 4).</p></li>
 <li><p><strong>points</strong> (<em>dict</em><em>, </em><em>optional</em>) – Points for annotation. Defaults to None.</p></li>
 <li><p><strong>annotated</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to add annotation. Defaults to False.</p></li>
 <li><p><strong>backend</strong> (<em>str</em><em>, </em><em>optional</em>) – <p>Visualization backend specification. Defaults to
@@ -891,7 +891,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 self.pcent. Defaults to False.</p></li>
 <li><p><strong>crosshair</strong> (<em>bool</em><em>, </em><em>optional</em>) – Display option to plot circles around center
 self.pcent. Works only in bokeh backend. Defaults to False.</p></li>
-<li><p><strong>crosshair_radii</strong> (<em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel radii of circles to plot when
+<li><p><strong>crosshair_radii</strong> (<em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel radii of circles to plot when
 crosshair option is activated. Defaults to [50, 100, 150].</p></li>
 <li><p><strong>crosshair_thickness</strong> (<em>int</em><em>, </em><em>optional</em>) – Thickness of crosshair circles.
 Defaults to 1.</p></li>
@@ -905,23 +905,24 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="py method">
 <dt class="sig sig-object py" id="sed.calibrator.momentum.MomentumCorrector.select_k_range">
 <span class="sig-name descname"><span class="pre">select_k_range</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">point_a</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">point_b</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">k_distance</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">k_coord_a</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">k_coord_b</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">array([0.,</span> <span class="pre">0.])</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">equiscale</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">apply</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/calibrator/momentum.html#MomentumCorrector.select_k_range"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.calibrator.momentum.MomentumCorrector.select_k_range" title="Link to this definition">#</a></dt>
-<dd><p>Interactive selection function for features for the Momentum axes calibration. It allows
-the user to select the pixel positions of two symmetry points (a and b) and the k-space
-distance of the two. Alternatively, the coordinates of both points can be provided. See the
-equiscale option for details on the specifications of point coordinates.</p>
+<dd><p>Interactive selection function for features for the Momentum axes calibra-
+tion. It allows the user to select the pixel positions of two symmetry points
+(a and b) and the k-space distance of the two. Alternatively, the corrdinates
+of both points can be provided. See the equiscale option for details on the
+specifications of point coordinates.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>point_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
+<li><p><strong>point_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
 symmetry point a.</p></li>
-<li><p><strong>point_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
+<li><p><strong>point_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
 symmetry point b. Defaults to the center pixel of the image, defined by
 config[“momentum”][“center_pixel”].</p></li>
 <li><p><strong>k_distance</strong> (<em>float</em><em>, </em><em>optional</em>) – The known momentum space distance between the
 two symmetry points.</p></li>
-<li><p><strong>k_coord_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the symmetry points a. Only valid if equiscale=False.</p></li>
-<li><p><strong>k_coord_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the symmetry points b. Only valid if equiscale=False. Defaults to
 the k-space center np.array([0.0, 0.0]).</p></li>
 <li><p><strong>equiscale</strong> (<em>bool</em><em>, </em><em>optional</em>) – <p>Option to adopt equal scale along both the x
@@ -959,16 +960,16 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>point_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
+<li><p><strong>point_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
 symmetry point a.</p></li>
-<li><p><strong>point_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
+<li><p><strong>point_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
 symmetry point b. Defaults to the center pixel of the image, defined by
 config[“momentum”][“center_pixel”].</p></li>
 <li><p><strong>k_distance</strong> (<em>float</em><em>, </em><em>optional</em>) – The known momentum space distance between the
 two symmetry points.</p></li>
-<li><p><strong>k_coord_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the symmetry points a. Only valid if equiscale=False.</p></li>
-<li><p><strong>k_coord_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the symmetry points b. Only valid if equiscale=False. Defaults to
 the k-space center np.array([0.0, 0.0]).</p></li>
 <li><p><strong>equiscale</strong> (<em>bool</em><em>, </em><em>optional</em>) – <p>Option to adopt equal scale along both the x
@@ -1024,8 +1025,8 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to apply
-the distortion correction to.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to apply
+the distotion correction to.</p></li>
 <li><p><strong>x_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Label of the ‘X’ column before momentum
 distortion correction. Defaults to config[“momentum”][“x_column”].</p></li>
 <li><p><strong>y_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Label of the ‘Y’ column before momentum
@@ -1053,7 +1054,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 added columns and momentum correction metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[Union[pd.DataFrame, dask.dataframe.DataFrame], dict]</p>
+<dd class="field-odd"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1079,8 +1080,8 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to apply the
-distortion correction to.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to apply the
+distotion correction to.</p></li>
 <li><p><strong>x_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Label of the source ‘X’ column.
 Defaults to config[“momentum”][“corrected_x_column”] or
 config[“momentum”][“x_column”] (whichever is present).</p></li>
@@ -1102,7 +1103,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 added columns and momentum calibration metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[Union[pd.DataFrame, dask.dataframe.DataFrame], dict]</p>
+<dd class="field-odd"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1136,7 +1137,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-odd"><p><strong>cmap_name</strong> (<em>str</em>) – Name of the colormap/palette.</p>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>List of colors in hex representation (a bokeh palette).</p>
+<dd class="field-even"><p>List of colors in hex representation (a bokoeh palette).</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
 <dd class="field-odd"><p>list</p>
@@ -1152,7 +1153,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>main_dict</strong> (<em>dict</em>) – Main dictionary.</p></li>
-<li><p><strong>other_entries</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>dict</em><em>]</em><em>, </em><em>Tuple</em><em>[</em><em>dict</em><em>]</em><em>, </em><em>dict</em><em>]</em>) – Other dictionary or composite dictionarized elements.</p></li>
+<li><p><strong>other_entries</strong> (<em>list</em><em>[</em><em>dict</em><em>] </em><em>| </em><em>tuple</em><em>[</em><em>dict</em><em>] </em><em>| </em><em>dict</em>) – Other dictionary or composite dictionarized elements.</p></li>
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
@@ -1165,9 +1166,9 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </dd></dl>
 
 <dl class="py function">
-<dt class="sig sig-object py" id="sed.calibrator.momentum.detector_coordinates_2_k_coordinates">
-<span class="sig-prename descclassname"><span class="pre">sed.calibrator.momentum.</span></span><span class="sig-name descname"><span class="pre">detector_coordinates_2_k_coordinates</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">r_det</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_det</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_start</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_start</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_center</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_center</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_conversion</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_conversion</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_step</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_step</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/calibrator/momentum.html#detector_coordinates_2_k_coordinates"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.calibrator.momentum.detector_coordinates_2_k_coordinates" title="Link to this definition">#</a></dt>
-<dd><p>Conversion from detector coordinates (r_det, c_det) to momentum coordinates
+<dt class="sig sig-object py" id="sed.calibrator.momentum.detector_coordiantes_2_k_koordinates">
+<span class="sig-prename descclassname"><span class="pre">sed.calibrator.momentum.</span></span><span class="sig-name descname"><span class="pre">detector_coordiantes_2_k_koordinates</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">r_det</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_det</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_start</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_start</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_center</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_center</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_conversion</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_conversion</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">r_step</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">c_step</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/calibrator/momentum.html#detector_coordiantes_2_k_koordinates"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.calibrator.momentum.detector_coordiantes_2_k_koordinates" title="Link to this definition">#</a></dt>
+<dd><p>Conversion from detector coordinates (rdet, cdet) to momentum coordinates
 (kr, kc).</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
@@ -1188,7 +1189,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-even"><p>Converted momentum space row/column coordinates.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[float, float]</p>
+<dd class="field-odd"><p>tuple[float, float]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1200,15 +1201,15 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to apply the
-distortion correction to.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to apply the
+distotion correction to.</p></li>
 <li><p><strong>dfield</strong> (<em>np.ndarray</em>) – The distortion correction field. 3D matrix,
 with column and row distortion fields stacked along the first dimension.</p></li>
 <li><p><strong>x_column</strong> (<em>str</em>) – Label of the ‘X’ source column.</p></li>
 <li><p><strong>y_column</strong> (<em>str</em>) – Label of the ‘Y’ source column.</p></li>
 <li><p><strong>new_x_column</strong> (<em>str</em>) – Label of the ‘X’ destination column.</p></li>
 <li><p><strong>new_y_column</strong> (<em>str</em>) – Label of the ‘Y’ destination column.</p></li>
-<li><p><strong>detector_ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em>) – tuple of pixel ranges of the detector x/y
+<li><p><strong>detector_ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em>) – tuple of pixel ranges of the detector x/y
 coordinates</p></li>
 </ul>
 </dd>
@@ -1216,7 +1217,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-even"><p>dataframe with added columns</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1224,7 +1225,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.calibrator.momentum.generate_inverse_dfield">
 <span class="sig-prename descclassname"><span class="pre">sed.calibrator.momentum.</span></span><span class="sig-name descname"><span class="pre">generate_inverse_dfield</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">rdeform_field</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">cdeform_field</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">bin_ranges</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">detector_ranges</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/calibrator/momentum.html#generate_inverse_dfield"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.calibrator.momentum.generate_inverse_dfield" title="Link to this definition">#</a></dt>
-<dd><p>Generate inverse deformation field using interpolation with griddata.
+<dd><p>Generate inverse deformation field using inperpolation with griddata.
 Assuming the binning range of the input <code class="docutils literal notranslate"><span class="pre">rdeform_field</span></code> and <code class="docutils literal notranslate"><span class="pre">cdeform_field</span></code>
 covers the whole detector.</p>
 <dl class="field-list simple">
@@ -1232,8 +1233,8 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>rdeform_field</strong> (<em>np.ndarray</em>) – Row-wise deformation field.</p></li>
 <li><p><strong>cdeform_field</strong> (<em>np.ndarray</em>) – Column-wise deformation field.</p></li>
-<li><p><strong>bin_ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em>) – Detector ranges of the binned coordinates.</p></li>
-<li><p><strong>detector_ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em>) – Ranges of detector coordinates to interpolate to.</p></li>
+<li><p><strong>bin_ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em>) – Detector ranges of the binned coordinates.</p></li>
+<li><p><strong>detector_ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em>) – Ranges of detector coordinates to interpolate to.</p></li>
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
@@ -1254,10 +1255,10 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-odd"><p><strong>file</strong> (<em>str</em>) – Path to file containing the inverse dfield</p>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>the loaded inverse deformation field</p>
+<dd class="field-even"><p>the loaded inverse row and column deformation fields</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>np.ndarray</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1357,12 +1358,12 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>data_files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em>) – list of file names to bin</p></li>
-<li><p><strong>axes</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – bin axes. Defaults to
+<li><p><strong>data_files</strong> (<em>list</em><em>[</em><em>str</em><em>]</em>) – list of file names to bin</p></li>
+<li><p><strong>axes</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – bin axes. Defaults to
 config[“dataframe”][“tof_column”].</p></li>
-<li><p><strong>bins</strong> (<em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – number of bins.
+<li><p><strong>bins</strong> (<em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – number of bins.
 Defaults to config[“energy”][“bins”].</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – bin ranges.
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – bin ranges.
 Defaults to config[“energy”][“ranges”].</p></li>
 <li><p><strong>biases</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Bias voltages used.
 If not provided, biases are extracted from the file meta data.</p></li>
@@ -1400,7 +1401,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>ranges</strong> (<em>Tuple</em>) – Collection of feature detection ranges, within which an algorithm
+<li><p><strong>ranges</strong> (<em>tuple</em>) – Collection of feature detection ranges, within which an algorithm
 (i.e. 1D peak detector) with look for the feature.</p></li>
 <li><p><strong>ref_id</strong> (<em>int</em><em>, </em><em>optional</em>) – Index of the reference trace. Defaults to 0.</p></li>
 <li><p><strong>traces</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Collection of energy dispersion curves.
@@ -1422,13 +1423,13 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>ranges</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>Tuple</em><em>]</em>) – Collection of feature detection ranges, within which an algorithm
+<li><p><strong>ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>] </em><em>| </em><em>tuple</em>) – Collection of feature detection ranges, within which an algorithm
 (i.e. 1D peak detector) with look for the feature.</p></li>
 <li><p><strong>ref_id</strong> (<em>int</em><em>, </em><em>optional</em>) – Index of the reference trace. Defaults to 0.</p></li>
 <li><p><strong>traces</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Collection of energy dispersion curves.
 Defaults to self.traces_normed.</p></li>
 <li><p><strong>infer_others</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to infer the feature detection range
-in other traces from a given one using a time warp algorithm.
+in other traces from a given one using a time warp algorthm.
 Defaults to True.</p></li>
 <li><p><strong>mode</strong> (<em>str</em><em>, </em><em>optional</em>) – Specification on how to change the feature ranges
 (‘append’ or ‘replace’). Defaults to “replace”.</p></li>
@@ -1445,7 +1446,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – List of ranges in each trace to look for
+<li><p><strong>ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – List of ranges in each trace to look for
 the peak feature, [start, end]. Defaults to self.featranges.</p></li>
 <li><p><strong>traces</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Collection of 1D spectra to use for
 calibration. Defaults to self.traces_normed.</p></li>
@@ -1514,7 +1515,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>traces</strong> (<em>np.ndarray</em>) – Matrix of traces to visualize.</p></li>
-<li><p><strong>segs</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – Segments to be highlighted in the
+<li><p><strong>segs</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – Segments to be highlighted in the
 visualization. Defaults to None.</p></li>
 <li><p><strong>peaks</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Peak positions for labelling the traces.
 Defaults to None.</p></li>
@@ -1551,7 +1552,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to apply the energy axis calibration to.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to apply the energy axis calibration to.</p></li>
 <li><p><strong>tof_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Label of the source column.
 Defaults to config[“dataframe”][“tof_column”].</p></li>
 <li><p><strong>energy_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Label of the destination column.
@@ -1576,7 +1577,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 and energy calibration metadata dictionary.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-even"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1588,7 +1589,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to convert.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to convert.</p></li>
 <li><p><strong>tof_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the
 time-of-flight steps. Defaults to config[“dataframe”][“tof_column”].</p></li>
 <li><p><strong>tof_ns_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column to store the
@@ -1600,11 +1601,11 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>Dataframe with the new columns.
-dict: Metadata dictionary.</p>
+<dd class="field-even"><p>Dataframe with the new columns
+and Metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>dask.dataframe.DataFrame</p>
+<dd class="field-odd"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1647,7 +1648,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </p></li>
 <li><p><strong>amplitude</strong> (<em>float</em><em>, </em><em>optional</em>) – Amplitude of the time-of-flight correction
 term. Defaults to config[“energy”][“correction”][“correction_type”].</p></li>
-<li><p><strong>center</strong> (<em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Center (x/y) coordinates for the
+<li><p><strong>center</strong> (<em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Center (x/y) coordinates for the
 correction. Defaults to config[“energy”][“correction”][“center”].</p></li>
 <li><p><strong>correction</strong> (<em>dict</em><em>, </em><em>optional</em>) – Correction dict. Defaults to the config values
 and is updated from provided and adjusted parameters.</p></li>
@@ -1692,7 +1693,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – The dataframe where
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – The dataframe where
 to apply the energy correction to.</p></li>
 <li><p><strong>tof_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the source column to convert.
 Defaults to config[“dataframe”][“tof_column”].</p></li>
@@ -1710,7 +1711,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </p></li>
 <li><p><strong>amplitude</strong> (<em>float</em><em>, </em><em>optional</em>) – Amplitude of the time-of-flight correction
 term. Defaults to config[“energy”][“correction”][“correction_type”].</p></li>
-<li><p><strong>correction</strong> (<em>dict</em><em>, </em><em>optional</em>) – Correction dictionary containing parameters
+<li><p><strong>correction</strong> (<em>dict</em><em>, </em><em>optional</em>) – Correction dictionary containing paramters
 for the correction. Defaults to self.correction or
 config[“energy”][“correction”].</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to print out diagnostic information.
@@ -1737,7 +1738,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 and Energy correction metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1767,7 +1768,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>tof_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the time-of-flight values.
 Defaults to config[“dataframe”][“tof_column”].</p></li>
 <li><p><strong>sector_id_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the sector id values.
@@ -1777,11 +1778,11 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>Dataframe with the new columns.
-dict: Metadata dictionary.</p>
+<dd class="field-even"><p>Dataframe with the new columns and Metadata
+dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>dask.dataframe.DataFrame</p>
+<dd class="field-odd"><p>tuple[dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1796,29 +1797,30 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>offsets</strong> (<em>Dict</em><em>, </em><em>optional</em>) – Dictionary of energy offset parameters.</p></li>
 <li><p><strong>constant</strong> (<em>float</em><em>, </em><em>optional</em>) – The constant to shift the energy axis by.</p></li>
-<li><p><strong>columns</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
-<li><p><strong>weights</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em>) – weights to apply to the columns.
+<li><p><strong>columns</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
+<li><p><strong>weights</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em>) – weights to apply to the columns.
 Can also be used to flip the sign (e.g. -1). Defaults to 1.</p></li>
-<li><p><strong>preserve_mean</strong> (<em>bool</em>) – Whether to subtract the mean of the column before applying the
-shift. Defaults to False.</p></li>
-<li><p><strong>reductions</strong> (<em>str</em>) – The reduction to apply to the column. Should be an available method
-of dask.dataframe.Series. For example “mean”. In this case the function is applied
-to the column to generate a single value for the whole dataset. If None, the shift
-is applied per-dataframe-row. Defaults to None. Currently only “mean” is supported.</p></li>
+<li><p><strong>preserve_mean</strong> (<em>bool</em><em> | </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em>) – Whether to subtract the mean of the column
+before applying the shift. Defaults to False.</p></li>
+<li><p><strong>reductions</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – The reduction to apply to the column. Should be an
+available method of dask.dataframe.Series. For example “mean”. In this case the
+function is applied to the column to generate a single value for the whole dataset.
+If None, the shift is applied per-dataframe-row. Defaults to None. Currently only
+“mean” is supported.</p></li>
 <li><p><strong>energy_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the energy values.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to print out diagnostic information.
 Defaults to True.</p></li>
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>Dataframe with the new columns.
-dict: Metadata dictionary.</p>
+<dd class="field-even"><p>Dataframe with the new columns
+and Metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>dask.dataframe.DataFrame</p>
+<dd class="field-odd"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1832,7 +1834,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em>) – List of filenames</p></li>
+<li><p><strong>files</strong> (<em>list</em><em>[</em><em>str</em><em>]</em>) – List of filenames</p></li>
 <li><p><strong>bias_key</strong> (<em>str</em>) – hdf5 path to the bias value</p></li>
 </ul>
 </dd>
@@ -1852,11 +1854,11 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>x</strong> (<em>float</em>) – x coordinate</p></li>
-<li><p><strong>y</strong> (<em>float</em>) – y coordinate</p></li>
+<li><p><strong>x</strong> (<em>float</em><em> | </em><em>np.ndarray</em>) – x coordinate</p></li>
+<li><p><strong>y</strong> (<em>float</em><em> | </em><em>np.ndarray</em>) – y coordinate</p></li>
 <li><p><strong>correction_type</strong> (<em>str</em>) – type of correction. One of
 “spherical”, “Lorentzian”, “Gaussian”, or “Lorentzian_asymmetric”</p></li>
-<li><p><strong>center</strong> (<em>Tuple</em><em>[</em><em>int</em><em>, </em><em>int</em><em>]</em>) – center position of the distribution (x,y)</p></li>
+<li><p><strong>center</strong> (<em>tuple</em><em>[</em><em>int</em><em>, </em><em>int</em><em>]</em>) – center position of the distribution (x,y)</p></li>
 <li><p><strong>amplitude</strong> (<em>float</em>) – Amplitude of the correction</p></li>
 <li><p><strong>**kwds</strong> – <p>Keyword arguments:</p>
 <ul>
@@ -1877,7 +1879,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-even"><p>calculated correction value</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>float</p>
+<dd class="field-odd"><p>float | np.ndarray</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1939,7 +1941,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>x</strong> (<em>np.ndarray</em>) – Values of the x axis (e.g. time-of-flight values).</p></li>
-<li><p><strong>xrng</strong> (<em>Tuple</em>) – Boundary value range on the x axis.</p></li>
+<li><p><strong>xrng</strong> (<em>tuple</em>) – Boundary value range on the x axis.</p></li>
 <li><p><strong>pathcorr</strong> (<em>np.ndarray</em>) – Path correspondence between two 1D arrays in the
 following form,
 [(id_1_trace_1, id_1_trace_2), (id_2_trace_1, id_2_trace_2), …]</p></li>
@@ -1949,7 +1951,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-even"><p>Transformed range according to the path correspondence.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple</p>
+<dd class="field-odd"><p>tuple</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1983,7 +1985,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>traces</strong> (<em>np.ndarray</em>) – Collection of 1D spectra.</p></li>
 <li><p><strong>tof</strong> (<em>np.ndarray</em>) – Time-of-flight values.</p></li>
-<li><p><strong>ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – List of ranges for peak detection in the format</p></li>
+<li><p><strong>ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – List of ranges for peak detection in the format</p></li>
 <li><p><strong>[</strong> (<em>LowerBound1</em><em>, </em><em>UpperBound1</em><em>)</em><em>, </em><em>(</em><em>LowerBound2</em><em>, </em><em>UpperBound2</em>) – Defaults to None.</p></li>
 <li><p><strong>pkwindow</strong> (<em>int</em><em>, </em><em>optional</em>) – Window width of a peak (amounts to lookahead in
 <code class="docutils literal notranslate"><span class="pre">peakdetect1d</span></code>). Defaults to 3.</p></li>
@@ -2034,7 +2036,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 positions of the negative peaks</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-even"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2048,16 +2050,16 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>pos</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – Positions of the spectral landmarks
+<li><p><strong>pos</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em>) – Positions of the spectral landmarks
 (e.g. peaks) in the EDCs.</p></li>
-<li><p><strong>vals</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – Bias voltage value associated with
+<li><p><strong>vals</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em>) – Bias voltage value associated with
 each EDC.</p></li>
 <li><p><strong>binwidth</strong> (<em>float</em>) – Time width of each original TOF bin in ns.</p></li>
 <li><p><strong>binning</strong> (<em>int</em>) – Binning factor of the TOF values.</p></li>
 <li><p><strong>ref_id</strong> (<em>int</em><em>, </em><em>optional</em>) – Reference dataset index. Defaults to 0.</p></li>
-<li><p><strong>ref_energy</strong> (<em>float</em><em>, </em><em>optional</em>) – Energy value of the feature in the reference
+<li><p><strong>ref_energy</strong> (<em>float</em><em>, </em><em>optional</em>) – Energy value of the feature in the refence
 trace (eV). required to output the calibration. Defaults to None.</p></li>
-<li><p><strong>t</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Array of TOF values. Required
+<li><p><strong>t</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em><em>, </em><em>optional</em>) – Array of TOF values. Required
 to calculate calibration trace. Defaults to None.</p></li>
 <li><p><strong>energy_scale</strong> (<em>str</em><em>, </em><em>optional</em>) – <p>Direction of increasing energy scale.</p>
 <ul>
@@ -2082,7 +2084,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-even">Returns<span class="colon">:</span></dt>
 <dd class="field-even"><p><p>A dictionary of fitting parameters including the following,</p>
 <ul class="simple">
-<li><p>”coeffs”: Fitted function coefficients.</p></li>
+<li><p>”coeffs”: Fitted function coefficents.</p></li>
 <li><p>”axis”: Fitted energy axis.</p></li>
 </ul>
 </p>
@@ -2105,15 +2107,15 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>pos</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – Positions of the spectral landmarks
+<li><p><strong>pos</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em>) – Positions of the spectral landmarks
 (e.g. peaks) in the EDCs.</p></li>
-<li><p><strong>vals</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – Bias voltage value associated with
+<li><p><strong>vals</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em>) – Bias voltage value associated with
 each EDC.</p></li>
 <li><p><strong>order</strong> (<em>int</em><em>, </em><em>optional</em>) – Polynomial order of the fitting function. Defaults to 3.</p></li>
 <li><p><strong>ref_id</strong> (<em>int</em><em>, </em><em>optional</em>) – Reference dataset index. Defaults to 0.</p></li>
-<li><p><strong>ref_energy</strong> (<em>float</em><em>, </em><em>optional</em>) – Energy value of the feature in the reference
+<li><p><strong>ref_energy</strong> (<em>float</em><em>, </em><em>optional</em>) – Energy value of the feature in the refence
 trace (eV). required to output the calibration. Defaults to None.</p></li>
-<li><p><strong>t</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Array of TOF values. Required
+<li><p><strong>t</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em><em>, </em><em>optional</em>) – Array of TOF values. Required
 to calculate calibration trace. Defaults to None.</p></li>
 <li><p><strong>aug</strong> (<em>int</em><em>, </em><em>optional</em>) – Fitting dimension augmentation
 (1=no change, 2=double, etc). Defaults to 1.</p></li>
@@ -2188,7 +2190,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>poly_a</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>float</em><em>]</em><em>, </em><em>np.ndarray</em><em>]</em>) – Polynomial coefficients.</p></li>
+<li><p><strong>poly_a</strong> (<em>list</em><em>[</em><em>float</em><em>] </em><em>| </em><em>np.ndarray</em>) – Polynomial coefficients.</p></li>
 <li><p><strong>energy_offset</strong> (<em>float</em>) – Energy offset in eV.</p></li>
 <li><p><strong>t</strong> (<em>float</em>) – TOF value in bin number.</p></li>
 </ul>
@@ -2247,7 +2249,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – The dataframe where
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – The dataframe where
 to apply the delay calibration to.</p></li>
 <li><p><strong>adc_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Source column for delay calibration.
 Defaults to config[“dataframe”][“adc_column”].</p></li>
@@ -2255,14 +2257,14 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 Defaults to config[“dataframe”][“delay_column”].</p></li>
 <li><p><strong>calibration</strong> (<em>dict</em><em>, </em><em>optional</em>) – Calibration dictionary with parameters for
 delay calibration.</p></li>
-<li><p><strong>adc_range</strong> (<em>Union</em><em>[</em><em>Tuple</em><em>, </em><em>List</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – The range of used
+<li><p><strong>adc_range</strong> (<em>tuple</em><em> | </em><em>list</em><em> | </em><em>np.ndarray</em><em>, </em><em>optional</em>) – The range of used
 ADC values. Defaults to config[“delay”][“adc_range”].</p></li>
-<li><p><strong>delay_range</strong> (<em>Union</em><em>[</em><em>Tuple</em><em>, </em><em>List</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Range of scanned
+<li><p><strong>delay_range</strong> (<em>tuple</em><em> | </em><em>list</em><em> | </em><em>np.ndarray</em><em>, </em><em>optional</em>) – Range of scanned
 delay values in ps. If omitted, the range is calculated from the
 delay_range_mm and t0 values.</p></li>
 <li><p><strong>time0</strong> (<em>float</em><em>, </em><em>optional</em>) – Pump-Probe overlap value of the delay coordinate.
 If omitted, it is searched for in the data files.</p></li>
-<li><p><strong>delay_range_mm</strong> (<em>Union</em><em>[</em><em>Tuple</em><em>, </em><em>List</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Range of scanned
+<li><p><strong>delay_range_mm</strong> (<em>tuple</em><em> | </em><em>list</em><em> | </em><em>np.ndarray</em><em>, </em><em>optional</em>) – Range of scanned
 delay stage in mm. If omitted, it is searched for in the data files.</p></li>
 <li><p><strong>datafile</strong> (<em>str</em><em>, </em><em>optional</em>) – Datafile in which delay parameters are searched
 for. Defaults to None.</p></li>
@@ -2284,10 +2286,10 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </dd>
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p>dataframe with added column
-and delay calibration metadata dictionary.</p>
+and delay calibration metdata dictionary.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-even"><p>tuple[pd.DataFrame | dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2300,29 +2302,30 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
-<li><p><strong>offsets</strong> (<em>Dict</em><em>, </em><em>optional</em>) – Dictionary of delay offset parameters.</p></li>
+<li><p><strong>offsets</strong> (<em>dict</em><em>, </em><em>optional</em>) – Dictionary of delay offset parameters.</p></li>
 <li><p><strong>constant</strong> (<em>float</em><em>, </em><em>optional</em>) – The constant to shift the delay axis by.</p></li>
 <li><p><strong>flip_delay_axis</strong> (<em>bool</em><em>, </em><em>optional</em>) – Whether to flip the time axis. Defaults to False.</p></li>
-<li><p><strong>columns</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
-<li><p><strong>weights</strong> (<em>Union</em><em>[</em><em>int</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>]</em>) – weights to apply to the columns.
+<li><p><strong>columns</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
+<li><p><strong>weights</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em>) – weights to apply to the columns.
 Can also be used to flip the sign (e.g. -1). Defaults to 1.</p></li>
-<li><p><strong>preserve_mean</strong> (<em>bool</em>) – Whether to subtract the mean of the column before applying the
-shift. Defaults to False.</p></li>
-<li><p><strong>reductions</strong> (<em>str</em>) – The reduction to apply to the column. Should be an available method
-of dask.dataframe.Series. For example “mean”. In this case the function is applied
-to the column to generate a single value for the whole dataset. If None, the shift
-is applied per-dataframe-row. Defaults to None. Currently only “mean” is supported.</p></li>
+<li><p><strong>preserve_mean</strong> (<em>bool</em><em> | </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em>) – Whether to subtract the mean of the column
+before applying the shift. Defaults to False.</p></li>
+<li><p><strong>reductions</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – The reduction to apply to the column. Should be an
+available method of dask.dataframe.Series. For example “mean”. In this case the
+function is applied to the column to generate a single value for the whole dataset.
+If None, the shift is applied per-dataframe-row. Defaults to None. Currently only
+“mean” is supported.</p></li>
 <li><p><strong>delay_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the delay values.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to print out diagnostic information.
 Defaults to True.</p></li>
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>Dataframe with the shifted delay axis.
-dict: Metadata dictionary.</p>
+<dd class="field-even"><p>Dataframe with the shifted delay axis and
+Metadata dictionary.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>dask.dataframe.DataFrame</p>
+<dd class="field-odd"><p>tuple[dask.dataframe.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2354,12 +2357,12 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.calibrator.delay.mm_to_ps">
 <span class="sig-prename descclassname"><span class="pre">sed.calibrator.delay.</span></span><span class="sig-name descname"><span class="pre">mm_to_ps</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">delay_mm</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">time0_mm</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/calibrator/delay.html#mm_to_ps"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.calibrator.delay.mm_to_ps" title="Link to this definition">#</a></dt>
-<dd><p>Converts a delay stage position in mm into a relative delay in picoseconds
+<dd><p>Converts a delaystage position in mm into a relative delay in picoseconds
 (double pass).</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>delay_mm</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em>) – Delay stage position in mm</p></li>
+<li><p><strong>delay_mm</strong> (<em>float</em><em> | </em><em>np.ndarray</em>) – Delay stage position in mm</p></li>
 <li><p><strong>time0_mm</strong> (<em>float</em>) – Delay stage position of pump-probe overlap in mm</p></li>
 </ul>
 </dd>
@@ -2367,7 +2370,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 <dd class="field-even"><p>Relative delay in picoseconds</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[float, Sequence[float]]</p>
+<dd class="field-odd"><p>float | np.ndarray</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2451,7 +2454,7 @@ <h1>Calibrator<a class="headerlink" href="#calibrator" title="Link to this headi
 </li>
 <li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.cm2palette"><code class="docutils literal notranslate"><span class="pre">cm2palette()</span></code></a></li>
 <li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.dictmerge"><code class="docutils literal notranslate"><span class="pre">dictmerge()</span></code></a></li>
-<li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.detector_coordinates_2_k_coordinates"><code class="docutils literal notranslate"><span class="pre">detector_coordinates_2_k_coordinates()</span></code></a></li>
+<li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.detector_coordiantes_2_k_koordinates"><code class="docutils literal notranslate"><span class="pre">detector_coordiantes_2_k_koordinates()</span></code></a></li>
 <li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.apply_dfield"><code class="docutils literal notranslate"><span class="pre">apply_dfield()</span></code></a></li>
 <li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.generate_inverse_dfield"><code class="docutils literal notranslate"><span class="pre">generate_inverse_dfield()</span></code></a></li>
 <li class="toc-h3 nav-item toc-entry"><a class="reference internal nav-link" href="#sed.calibrator.momentum.load_dfield"><code class="docutils literal notranslate"><span class="pre">load_dfield()</span></code></a></li>
diff --git a/sed/latest/sed/config.html b/sed/latest/sed/config.html
index af990f3..84ec192 100644
--- a/sed/latest/sed/config.html
+++ b/sed/latest/sed/config.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Config &#8212; SED 0.1.10a6 documentation</title>
+    <title>Config &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -123,7 +123,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -475,7 +475,7 @@
 <p>This module contains a config library for loading yaml/json files into dicts</p>
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.core.config.parse_config">
-<span class="sig-prename descclassname"><span class="pre">sed.core.config.</span></span><span class="sig-name descname"><span class="pre">parse_config</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">folder_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">user_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">system_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">default_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'/Users/zain/Documents/Work/sed_fresh_copy/sed/sed/config/default.yaml'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">verbose</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/config.html#parse_config"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.config.parse_config" title="Link to this definition">#</a></dt>
+<span class="sig-prename descclassname"><span class="pre">sed.core.config.</span></span><span class="sig-name descname"><span class="pre">parse_config</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">folder_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">user_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">system_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">default_config</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'/home/runner/work/sed/sed/sed/config/default.yaml'</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">verbose</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/config.html#parse_config"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.config.parse_config" title="Link to this definition">#</a></dt>
 <dd><p>Load the config dictionary from a file, or pass the provided config dictionary.
 The content of the loaded config dictionary is then completed from a set of pre-configured
 config files in hierarchical order, by adding missing items. These additional config files
@@ -484,21 +484,21 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>config</strong> (<em>Union</em><em>[</em><em>dict</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – config dictionary or file path.
+<li><p><strong>config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – config dictionary or file path.
 Files can be <em>json</em> or <em>yaml</em>. Defaults to None.</p></li>
-<li><p><strong>folder_config</strong> (<em>Union</em><em>[ </em><em>dict</em><em>, </em><em>str</em><em>, </em><em>]</em><em>, </em><em>optional</em>) – working-folder-based config dictionary
+<li><p><strong>folder_config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – working-folder-based config dictionary
 or file path. The loaded dictionary is completed with the folder-based values,
 taking preference over user, system and default values. Defaults to the file
 “sed_config.yaml” in the current working directory.</p></li>
-<li><p><strong>user_config</strong> (<em>Union</em><em>[ </em><em>dict</em><em>, </em><em>str</em><em>, </em><em>]</em><em>, </em><em>optional</em>) – user-based config dictionary
+<li><p><strong>user_config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – user-based config dictionary
 or file path. The loaded dictionary is completed with the user-based values,
 taking preference over system and default values.
 Defaults to the file “.sed/config.yaml” in the current user’s home directory.</p></li>
-<li><p><strong>system_config</strong> (<em>Union</em><em>[ </em><em>dict</em><em>, </em><em>str</em><em>, </em><em>]</em><em>, </em><em>optional</em>) – system-wide config dictionary
+<li><p><strong>system_config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – system-wide config dictionary
 or file path. The loaded dictionary is completed with the system-wide values,
 taking preference over default values. Defaults to the file “/etc/sed/config.yaml”
 on linux, and “%ALLUSERSPROFILE%/sed/config.yaml” on windows.</p></li>
-<li><p><strong>default_config</strong> (<em>Union</em><em>[ </em><em>dict</em><em>, </em><em>str</em><em>, </em><em>]</em><em>, </em><em>optional</em>) – default config dictionary
+<li><p><strong>default_config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – default config dictionary
 or file path. The loaded dictionary is completed with the default values.
 Defaults to <em>package_dir</em>/config/default.yaml”.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to report loaded config files. Defaults to True.</p></li>
@@ -547,11 +547,11 @@
 <span class="sig-prename descclassname"><span class="pre">sed.core.config.</span></span><span class="sig-name descname"><span class="pre">save_config</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">config_dict</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">config_path</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">overwrite</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/config.html#save_config"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.config.save_config" title="Link to this definition">#</a></dt>
 <dd><p>Function to save a given config dictionary to a json or yaml file. Normally, it loads any
 existing file of the given name, and keeps any existing dictionary keys not present in the
-provided dictionary. The overwrite option creates a fully empty dictionary first.</p>
+provided dictionary. The overwrite option creates a fully empty dictionry first.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>config_dict</strong> (<em>dict</em>) – The dictionary to save.</p></li>
+<li><p><strong>config_dict</strong> (<em>dict</em>) – The dictionry to save.</p></li>
 <li><p><strong>config_path</strong> (<em>str</em>) – A string containing the path to the file where to save the dictionary
 to.</p></li>
 <li><p><strong>overwrite</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to overwrite an existing file with the given dictionary.
diff --git a/sed/latest/sed/core.html b/sed/latest/sed/core.html
index 28bb012..e955f18 100644
--- a/sed/latest/sed/core.html
+++ b/sed/latest/sed/core.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Core &#8212; SED 0.1.10a6 documentation</title>
+    <title>Core &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -484,11 +484,11 @@
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>metadata</strong> (<em>dict</em><em>, </em><em>optional</em>) – Dict of external Metadata. Defaults to None.</p></li>
-<li><p><strong>config</strong> (<em>Union</em><em>[</em><em>dict</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Config dictionary or config file name.
+<li><p><strong>config</strong> (<em>dict</em><em> | </em><em>str</em><em>, </em><em>optional</em>) – Config dictionary or config file name.
 Defaults to None.</p></li>
-<li><p><strong>dataframe</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>ddf.DataFrame</em><em>]</em><em>, </em><em>optional</em>) – dataframe to load
+<li><p><strong>dataframe</strong> (<em>pd.DataFrame</em><em> | </em><em>ddf.DataFrame</em><em>, </em><em>optional</em>) – dataframe to load
 into the class. Defaults to None.</p></li>
-<li><p><strong>files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – List of files to pass to the loader defined in
+<li><p><strong>files</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – List of files to pass to the loader defined in
 the config. Defaults to None.</p></li>
 <li><p><strong>folder</strong> (<em>str</em><em>, </em><em>optional</em>) – Folder containing files to pass to the loader
 defined in the config. Defaults to None.</p></li>
@@ -504,28 +504,28 @@
 </dl>
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.dataframe">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">dataframe</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">DataFrame</span><span class="w"> </span><span class="p"><span class="pre">|</span></span><span class="w"> </span><span class="pre">DataFrame</span></em><a class="headerlink" href="#sed.core.SedProcessor.dataframe" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">dataframe</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">pd.DataFrame</span><span class="w"> </span><span class="p"><span class="pre">|</span></span><span class="w"> </span><span class="pre">ddf.DataFrame</span></em><a class="headerlink" href="#sed.core.SedProcessor.dataframe" title="Link to this definition">#</a></dt>
 <dd><p>Accessor to the underlying dataframe.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p>Dataframe object.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Union[pd.DataFrame, ddf.DataFrame]</p>
+<dd class="field-even"><p>pd.DataFrame | ddf.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
 
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.timed_dataframe">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">timed_dataframe</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">DataFrame</span><span class="w"> </span><span class="p"><span class="pre">|</span></span><span class="w"> </span><span class="pre">DataFrame</span></em><a class="headerlink" href="#sed.core.SedProcessor.timed_dataframe" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">timed_dataframe</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">pd.DataFrame</span><span class="w"> </span><span class="p"><span class="pre">|</span></span><span class="w"> </span><span class="pre">ddf.DataFrame</span></em><a class="headerlink" href="#sed.core.SedProcessor.timed_dataframe" title="Link to this definition">#</a></dt>
 <dd><p>Accessor to the underlying timed_dataframe.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p>Timed Dataframe object.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Union[pd.DataFrame, ddf.DataFrame]</p>
+<dd class="field-even"><p>pd.DataFrame | ddf.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -560,28 +560,28 @@
 
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.config">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">config</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">Dict</span><span class="p"><span class="pre">[</span></span><span class="pre">Any</span><span class="p"><span class="pre">,</span></span><span class="w"> </span><span class="pre">Any</span><span class="p"><span class="pre">]</span></span></em><a class="headerlink" href="#sed.core.SedProcessor.config" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">config</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">dict</span><span class="p"><span class="pre">[</span></span><span class="pre">Any</span><span class="p"><span class="pre">,</span></span><span class="w"> </span><span class="pre">Any</span><span class="p"><span class="pre">]</span></span></em><a class="headerlink" href="#sed.core.SedProcessor.config" title="Link to this definition">#</a></dt>
 <dd><p>Getter attribute for the config dictionary</p>
 <dl class="field-list simple">
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p>The config dictionary.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Dict</p>
+<dd class="field-even"><p>dict</p>
 </dd>
 </dl>
 </dd></dl>
 
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.files">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">files</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List</span><span class="p"><span class="pre">[</span></span><span class="pre">str</span><span class="p"><span class="pre">]</span></span></em><a class="headerlink" href="#sed.core.SedProcessor.files" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">files</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list</span><span class="p"><span class="pre">[</span></span><span class="pre">str</span><span class="p"><span class="pre">]</span></span></em><a class="headerlink" href="#sed.core.SedProcessor.files" title="Link to this definition">#</a></dt>
 <dd><p>Getter attribute for the list of files</p>
 <dl class="field-list simple">
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
 <dd class="field-odd"><p>The list of loaded files</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>List[str]</p>
+<dd class="field-even"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -620,7 +620,7 @@
 <dd><p>Getter attribute for the normalization histogram</p>
 <dl class="field-list simple">
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
-<dd class="field-odd"><p>The normalization histogram</p>
+<dd class="field-odd"><p>The normalizazion histogram</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
 <dd class="field-even"><p>xr.DataArray</p>
@@ -637,13 +637,13 @@
 config[“core”][“use_copy_tool”].</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
-<dd class="field-odd"><p><strong>path</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>List</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Source path or path list.</p>
+<dd class="field-odd"><p><strong>path</strong> (<em>str</em><em> | </em><em>list</em><em>[</em><em>str</em><em>]</em>) – Source path or path list.</p>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
 <dd class="field-even"><p>Source or destination path or path list.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[str, List[str]]</p>
+<dd class="field-odd"><p>str | list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -655,11 +655,11 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>dataframe</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>ddf.DataFrame</em><em>]</em><em>, </em><em>optional</em>) – data in tabular
+<li><p><strong>dataframe</strong> (<em>pd.DataFrame</em><em> | </em><em>ddf.DataFrame</em><em>, </em><em>optional</em>) – data in tabular
 format. Accepts anything which can be interpreted by pd.DataFrame as
 an input. Defaults to None.</p></li>
 <li><p><strong>metadata</strong> (<em>dict</em><em>, </em><em>optional</em>) – Dict of external Metadata. Defaults to None.</p></li>
-<li><p><strong>files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – List of file paths to pass to the loader.
+<li><p><strong>files</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – List of file paths to pass to the loader.
 Defaults to None.</p></li>
 <li><p><strong>runs</strong> (<em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – List of run identifiers to pass to the
 loader. Defaults to None.</p></li>
@@ -702,13 +702,13 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df_partitions</strong> (<em>Union</em><em>[</em><em>int</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Number of dataframe partitions
+<li><p><strong>df_partitions</strong> (<em>int</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Number of dataframe partitions
 to use for the initial binning. Defaults to 100.</p></li>
-<li><p><strong>axes</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Axes to bin.
+<li><p><strong>axes</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Axes to bin.
 Defaults to config[“momentum”][“axes”].</p></li>
-<li><p><strong>bins</strong> (<em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Bin numbers to use for binning.
+<li><p><strong>bins</strong> (<em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Bin numbers to use for binning.
 Defaults to config[“momentum”][“bins”].</p></li>
-<li><p><strong>ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – Ranges to use for binning.
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Ranges to use for binning.
 Defaults to config[“momentum”][“ranges”].</p></li>
 <li><p><strong>plane</strong> (<em>int</em><em>, </em><em>optional</em>) – Initial value for the plane slider. Defaults to 0.</p></li>
 <li><p><strong>width</strong> (<em>int</em><em>, </em><em>optional</em>) – Initial value for the width slider. Defaults to 5.</p></li>
@@ -725,7 +725,7 @@
 <span class="sig-name descname"><span class="pre">define_features</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">features</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">rotation_symmetry</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">6</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">auto_detect</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">include_center</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">True</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">apply</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/processor.html#SedProcessor.define_features"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.SedProcessor.define_features" title="Link to this definition">#</a></dt>
 <dd><p>2. Step of the distortion correction workflow: Define feature points in
 momentum space. They can be either manually selected using a GUI tool, be
-provided as list of feature points, or auto-generated using a
+ptovided as list of feature points, or auto-generated using a
 feature-detection algorithm.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
@@ -750,7 +750,7 @@
 <dt class="sig sig-object py" id="sed.core.SedProcessor.generate_splinewarp">
 <span class="sig-name descname"><span class="pre">generate_splinewarp</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">use_center</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">verbose</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/processor.html#SedProcessor.generate_splinewarp"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.SedProcessor.generate_splinewarp" title="Link to this definition">#</a></dt>
 <dd><p>3. Step of the distortion correction workflow: Generate the correction
-function restoring the symmetry in the image using a splinewarp algorithm.</p>
+function restoring the symmetry in the image using a splinewarp algortihm.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
@@ -790,8 +790,8 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>transformations</strong> (<em>dict</em><em>, </em><em>optional</em>) – Dictionary with transformations.
-Defaults to self.transformations or config[“momentum”][“transformations”].</p></li>
+<li><p><strong>transformations</strong> (<em>dict</em><em>[</em><em>str</em><em>, </em><em>Any</em><em>]</em><em>, </em><em>optional</em>) – Dictionary with transformations.
+Defaults to self.transformations or config[“momentum”][“transformtions”].</p></li>
 <li><p><strong>apply</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to directly apply the provided
 transformations. Defaults to False.</p></li>
 <li><p><strong>use_correction</strong> (<em>bool</em><em>, </em><em>option</em>) – Whether to use the spline warp correction
@@ -864,18 +864,18 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>point_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em>) – Pixel coordinates of the first
+<li><p><strong>point_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the first
 point used for momentum calibration.</p></li>
-<li><p><strong>point_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
+<li><p><strong>point_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Pixel coordinates of the
 second point used for momentum calibration.
 Defaults to config[“momentum”][“center_pixel”].</p></li>
 <li><p><strong>k_distance</strong> (<em>float</em><em>, </em><em>optional</em>) – Momentum distance between point a and b.
-Needs to be provided if no specific k-coordinates for the two points
+Needs to be provided if no specific k-koordinates for the two points
 are given. Defaults to None.</p></li>
-<li><p><strong>k_coord_a</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_a</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the first point used for calibration. Used if equiscale is False.
 Defaults to None.</p></li>
-<li><p><strong>k_coord_b</strong> (<em>Union</em><em>[</em><em>np.ndarray</em><em>, </em><em>List</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
+<li><p><strong>k_coord_b</strong> (<em>np.ndarray</em><em> | </em><em>list</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Momentum coordinate
 of the second point used for calibration. Defaults to [0.0, 0.0].</p></li>
 <li><p><strong>equiscale</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to apply different scales to kx and ky.
 If True, the distance between points a and b, and the absolute
@@ -929,7 +929,7 @@
 <dl class="py method">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.adjust_energy_correction">
 <span class="sig-name descname"><span class="pre">adjust_energy_correction</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">correction_type</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">amplitude</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">center</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">apply</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/processor.html#SedProcessor.adjust_energy_correction"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.SedProcessor.adjust_energy_correction" title="Link to this definition">#</a></dt>
-<dd><p>1. step of the energy correction workflow: Opens an interactive plot to
+<dd><p>1. step of the energy crrection workflow: Opens an interactive plot to
 adjust the parameters for the TOF/energy correction. Also pre-bins the data if
 they are not present yet.</p>
 <dl class="field-list simple">
@@ -947,7 +947,7 @@
 </p></li>
 <li><p><strong>amplitude</strong> (<em>float</em><em>, </em><em>optional</em>) – Amplitude of the correction.
 Defaults to config[“energy”][“correction”][“amplitude”].</p></li>
-<li><p><strong>center</strong> (<em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Center X/Y coordinates for the
+<li><p><strong>center</strong> (<em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Center X/Y coordinates for the
 correction. Defaults to config[“energy”][“correction”][“center”].</p></li>
 <li><p><strong>apply</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to directly apply the provided or default
 correction parameters. Defaults to False.</p></li>
@@ -976,7 +976,7 @@
 <dl class="py method">
 <dt class="sig sig-object py" id="sed.core.SedProcessor.apply_energy_correction">
 <span class="sig-name descname"><span class="pre">apply_energy_correction</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">correction</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">preview</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">False</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">verbose</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="o"><span class="pre">**</span></span><span class="n"><span class="pre">kwds</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/core/processor.html#SedProcessor.apply_energy_correction"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.core.SedProcessor.apply_energy_correction" title="Link to this definition">#</a></dt>
-<dd><p>2. step of the energy correction workflow: Apply the energy correction
+<dd><p>2. step of the energy correction workflow: Apply the enery correction
 parameters stored in the class to the dataframe.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
@@ -1001,15 +1001,15 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>binned_data</strong> (<em>Union</em><em>[</em><em>xr.DataArray</em><em>, </em><em>Tuple</em><em>[</em><em>np.ndarray</em><em>, </em><em>np.ndarray</em><em>, </em><em>np.ndarray</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Binned data If provided as DataArray, Needs to contain dimensions
+<li><p><strong>binned_data</strong> (<em>xr.DataArray</em><em> | </em><em>tuple</em><em>[</em><em>np.ndarray</em><em>, </em><em>np.ndarray</em><em>, </em><em>np.ndarray</em><em>]</em><em>, </em><em>optional</em>) – Binned data If provided as DataArray, Needs to contain dimensions
 config[“dataframe”][“tof_column”] and config[“dataframe”][“bias_column”]. If
 provided as tuple, needs to contain elements tof, biases, traces.</p></li>
-<li><p><strong>data_files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – list of file paths to bin</p></li>
-<li><p><strong>axes</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – bin axes.
+<li><p><strong>data_files</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – list of file paths to bin</p></li>
+<li><p><strong>axes</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – bin axes.
 Defaults to config[“dataframe”][“tof_column”].</p></li>
-<li><p><strong>bins</strong> (<em>List</em><em>, </em><em>optional</em>) – number of bins.
+<li><p><strong>bins</strong> (<em>list</em><em>, </em><em>optional</em>) – number of bins.
 Defaults to config[“energy”][“bins”].</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – bin ranges.
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – bin ranges.
 Defaults to config[“energy”][“ranges”].</p></li>
 <li><p><strong>biases</strong> (<em>np.ndarray</em><em>, </em><em>optional</em>) – Bias voltages used. If missing, bias
 voltages are extracted from the data files.</p></li>
@@ -1040,7 +1040,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>ranges</strong> (<em>Union</em><em>[</em><em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>Tuple</em><em>]</em>) – Tuple of TOF values indicating a range.
+<li><p><strong>ranges</strong> (<em>list</em><em>[</em><em>tuple</em><em>] </em><em>| </em><em>tuple</em>) – Tuple of TOF values indicating a range.
 Alternatively, a list of ranges for all traces can be given.</p></li>
 <li><p><strong>ref_id</strong> (<em>int</em><em>, </em><em>optional</em>) – The id of the trace the range refers to.
 Defaults to 0.</p></li>
@@ -1051,7 +1051,7 @@
 <li><p><strong>radius</strong> (<em>int</em><em>, </em><em>optional</em>) – Radius parameter for fast_dtw.
 Defaults to config[“energy”][“fastdtw_radius”].</p></li>
 <li><p><strong>peak_window</strong> (<em>int</em><em>, </em><em>optional</em>) – Peak_window parameter for the peak detection
-algorithm. amount of points that have to have to behave monotonously
+algorthm. amount of points that have to have to behave monotoneously
 around a peak. Defaults to config[“energy”][“peak_window”].</p></li>
 <li><p><strong>apply</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to directly apply the provided parameters.
 Defaults to False.</p></li>
@@ -1142,15 +1142,16 @@
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>constant</strong> (<em>float</em><em>, </em><em>optional</em>) – The constant to shift the energy axis by.</p></li>
-<li><p><strong>columns</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
-<li><p><strong>weights</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em>) – weights to apply to the columns.
+<li><p><strong>columns</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Name of the column(s) to apply the shift from.</p></li>
+<li><p><strong>weights</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – weights to apply to the columns.
 Can also be used to flip the sign (e.g. -1). Defaults to 1.</p></li>
-<li><p><strong>preserve_mean</strong> (<em>bool</em>) – Whether to subtract the mean of the column before applying the
-shift. Defaults to False.</p></li>
-<li><p><strong>reductions</strong> (<em>str</em>) – The reduction to apply to the column. Should be an available method
-of dask.dataframe.Series. For example “mean”. In this case the function is applied
-to the column to generate a single value for the whole dataset. If None, the shift
-is applied per-dataframe-row. Defaults to None. Currently only “mean” is supported.</p></li>
+<li><p><strong>reductions</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The reduction to apply to the column.
+Should be an available method of dask.dataframe.Series. For example “mean”. In this
+case the function is applied to the column to generate a single value for the whole
+dataset. If None, the shift is applied per-dataframe-row. Defaults to None.
+Currently only “mean” is supported.</p></li>
+<li><p><strong>preserve_mean</strong> (<em>bool</em><em> | </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em><em>, </em><em>optional</em>) – Whether to subtract the mean of the
+column before applying the shift. Defaults to False.</p></li>
 <li><p><strong>preview</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to preview the first elements of the data frame.
 Defaults to False.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to print out diagnostic information.
@@ -1161,7 +1162,7 @@
 <dd class="field-even"><p><strong>ValueError</strong> – If the energy column is not in the dataframe.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type"><code class="xref py py-obj docutils literal notranslate"><span class="pre">None</span></code></span></p>
+<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type">None</span></p>
 </dd>
 </dl>
 </dd></dl>
@@ -1229,7 +1230,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>delay_range</strong> (<em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – The scanned delay range in
+<li><p><strong>delay_range</strong> (<em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>, </em><em>optional</em>) – The scanned delay range in
 picoseconds. Defaults to None.</p></li>
 <li><p><strong>datafile</strong> (<em>str</em><em>, </em><em>optional</em>) – The file from which to read the delay ranges.
 Defaults to None.</p></li>
@@ -1271,15 +1272,16 @@
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>constant</strong> (<em>float</em><em>, </em><em>optional</em>) – The constant to shift the delay axis by.</p></li>
 <li><p><strong>flip_delay_axis</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to reverse the direction of the delay axis.</p></li>
-<li><p><strong>columns</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Name of the column(s) to apply the shift from.</p></li>
-<li><p><strong>weights</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em>) – weights to apply to the columns.
+<li><p><strong>columns</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Name of the column(s) to apply the shift from.</p></li>
+<li><p><strong>weights</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – weights to apply to the columns.
 Can also be used to flip the sign (e.g. -1). Defaults to 1.</p></li>
-<li><p><strong>preserve_mean</strong> (<em>bool</em>) – Whether to subtract the mean of the column before applying the
-shift. Defaults to False.</p></li>
-<li><p><strong>reductions</strong> (<em>str</em>) – The reduction to apply to the column. Should be an available method
-of dask.dataframe.Series. For example “mean”. In this case the function is applied
-to the column to generate a single value for the whole dataset. If None, the shift
-is applied per-dataframe-row. Defaults to None. Currently only “mean” is supported.</p></li>
+<li><p><strong>reductions</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The reduction to apply to the column.
+Should be an available method of dask.dataframe.Series. For example “mean”. In this
+case the function is applied to the column to generate a single value for the whole
+dataset. If None, the shift is applied per-dataframe-row. Defaults to None.
+Currently only “mean” is supported.</p></li>
+<li><p><strong>preserve_mean</strong> (<em>bool</em><em> | </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em><em>, </em><em>optional</em>) – Whether to subtract the mean of the
+column before applying the shift. Defaults to False.</p></li>
 <li><p><strong>preview</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to preview the first elements of the data frame.
 Defaults to False.</p></li>
 <li><p><strong>verbose</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to print out diagnostic information.
@@ -1290,7 +1292,7 @@
 <dd class="field-even"><p><strong>ValueError</strong> – If the delay column is not in the dataframe.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type"><code class="xref py py-obj docutils literal notranslate"><span class="pre">None</span></code></span></p>
+<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type">None</span></p>
 </dd>
 </dl>
 </dd></dl>
@@ -1340,9 +1342,9 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>cols</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The columns onto which to apply jitter.
+<li><p><strong>cols</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The colums onto which to apply jitter.
 Defaults to config[“dataframe”][“jitter_cols”].</p></li>
-<li><p><strong>amps</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Amplitude scalings for the
+<li><p><strong>amps</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Amplitude scalings for the
 jittering noise. If one number is given, the same is used for all axes.
 For uniform noise (default) it will cover the interval [-amp, +amp].
 Defaults to config[“dataframe”][“jitter_amps”].</p></li>
@@ -1381,13 +1383,13 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df_partitions</strong> (<em>Union</em><em>[</em><em>int</em><em>, </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Number of dataframe partitions to
+<li><p><strong>df_partitions</strong> (<em>int</em><em> | </em><em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Number of dataframe partitions to
 use for the initial binning. Defaults to 100.</p></li>
-<li><p><strong>axes</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Axes to bin.
+<li><p><strong>axes</strong> (<em>list</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Axes to bin.
 Defaults to config[“momentum”][“axes”].</p></li>
-<li><p><strong>bins</strong> (<em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Bin numbers to use for binning.
+<li><p><strong>bins</strong> (<em>list</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Bin numbers to use for binning.
 Defaults to config[“momentum”][“bins”].</p></li>
-<li><p><strong>ranges</strong> (<em>List</em><em>[</em><em>Tuple</em><em>]</em><em>, </em><em>optional</em>) – Ranges to use for binning.
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Ranges to use for binning.
 Defaults to config[“momentum”][“ranges”].</p></li>
 <li><p><strong>**kwds</strong> – Keyword argument passed to <code class="docutils literal notranslate"><span class="pre">compute</span></code>.</p></li>
 </ul>
@@ -1408,7 +1410,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>bins</strong> (<em>int</em><em>, </em><em>dict</em><em>, </em><em>tuple</em><em>, </em><em>List</em><em>[</em><em>int</em><em>]</em><em>, </em><em>List</em><em>[</em><em>np.ndarray</em><em>]</em><em>, </em><em>List</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – <p>Definition of the bins. Can be any of the following cases:</p>
+<li><p><strong>bins</strong> (<em>int</em><em> | </em><em>dict</em><em> | </em><em>tuple</em><em> | </em><em>list</em><em>[</em><em>int</em><em>] </em><em>| </em><em>list</em><em>[</em><em>np.ndarray</em><em>] </em><em>| </em><em>list</em><em>[</em><em>tuple</em><em>]</em><em>, </em><em>optional</em>) – <p>Definition of the bins. Can be any of the following cases:</p>
 <ul>
 <li><p>an integer describing the number of bins in on all dimensions</p></li>
 <li><p>a tuple of 3 numbers describing start, end and step of the binning
@@ -1419,13 +1421,13 @@
 </ul>
 <p>This takes priority over the axes and range arguments. Defaults to 100.</p>
 </p></li>
-<li><p><strong>axes</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The names of the axes (columns)
+<li><p><strong>axes</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The names of the axes (columns)
 on which to calculate the histogram. The order will be the order of the
 dimensions in the resulting array. Defaults to None.</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – list of tuples containing
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – list of tuples containing
 the start and end point of the binning range. Defaults to None.</p></li>
-<li><p><strong>normalize_to_acquisition_time</strong> (<em>Union</em><em>[</em><em>bool</em><em>, </em><em>str</em><em>]</em>) – Option to normalize the
-result to the acquisition time. If a “slow” axis was scanned, providing
+<li><p><strong>normalize_to_acquisition_time</strong> (<em>bool</em><em> | </em><em>str</em>) – Option to normalize the
+result to the acquistion time. If a “slow” axis was scanned, providing
 the name of the scanned axis will compute and apply the corresponding
 normalization histogram. Defaults to False.</p></li>
 <li><p><strong>**kwds</strong> – <p>Keyword arguments:</p>
@@ -1517,12 +1519,12 @@
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>dfpid</strong> (<em>int</em>) – Number of the data frame partition to look at.</p></li>
 <li><p><strong>ncol</strong> (<em>int</em><em>, </em><em>optional</em>) – Number of columns in the plot grid. Defaults to 2.</p></li>
-<li><p><strong>bins</strong> (<em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Number of bins to use for the specified
+<li><p><strong>bins</strong> (<em>Sequence</em><em>[</em><em>int</em><em>]</em><em>, </em><em>optional</em>) – Number of bins to use for the speicified
 axes. Defaults to config[“histogram”][“bins”].</p></li>
 <li><p><strong>axes</strong> (<em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Names of the axes to display.
 Defaults to config[“histogram”][“axes”].</p></li>
-<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Value ranges of all
-specified axes. Defaults to config[“histogram”][“ranges”].</p></li>
+<li><p><strong>ranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Value ranges of all
+specified axes. Defaults toconfig[“histogram”][“ranges”].</p></li>
 <li><p><strong>backend</strong> (<em>str</em><em>, </em><em>optional</em>) – Backend of the plotting library
 (‘matplotlib’ or ‘bokeh’). Defaults to “bokeh”.</p></li>
 <li><p><strong>legend</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to include a legend in the histogram plots.
@@ -1556,7 +1558,7 @@
 <li><p>”<em>.nxs”, “</em>.nexus”: Saves a NeXus file.</p></li>
 </ul>
 </p></li>
-<li><p><strong>**kwds</strong> – <p>Keyword arguments, which are passed to the writer functions:
+<li><p><strong>**kwds</strong> – <p>Keyword argumens, which are passed to the writer functions:
 For TIFF writing:</p>
 <ul>
 <li><p><strong>alias_dict</strong>: Dictionary of dimension aliases to use.</p></li>
@@ -1567,9 +1569,9 @@
 </ul>
 <p>For NeXus:</p>
 <ul>
-<li><p><strong>reader</strong>: Name of the pynxtools reader to use.
+<li><p><strong>reader</strong>: Name of the nexustools reader to use.
 Defaults to config[“nexus”][“reader”]</p></li>
-<li><p><strong>definition</strong>: NeXus application definition to use for saving.
+<li><p><strong>definiton</strong>: NeXus application definition to use for saving.
 Must be supported by the used <code class="docutils literal notranslate"><span class="pre">reader</span></code>. Defaults to
 config[“nexus”][“definition”]</p></li>
 <li><p><strong>input_files</strong>: A list of input files to pass to the reader.
diff --git a/sed/latest/sed/dataset.html b/sed/latest/sed/dataset.html
index 1841f09..f9689e2 100644
--- a/sed/latest/sed/dataset.html
+++ b/sed/latest/sed/dataset.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Dataset &#8212; SED 0.1.10a6 documentation</title>
+    <title>Dataset &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -707,7 +707,8 @@ <h2>Default datasets.json<a class="headerlink" href="#default-datasets-json" tit
 <span class="w">        </span><span class="nt">&quot;subdirs&quot;</span><span class="p">:</span><span class="w"> </span><span class="p">[</span>
 <span class="w">            </span><span class="s2">&quot;Scan049_1&quot;</span><span class="p">,</span>
 <span class="w">            </span><span class="s2">&quot;energycal_2019_01_08&quot;</span>
-<span class="w">        </span><span class="p">]</span>
+<span class="w">        </span><span class="p">],</span>
+<span class="w">        </span><span class="nt">&quot;data_path&quot;</span><span class="p">:</span><span class="w"> </span><span class="s2">&quot;/Users/zain/Documents/Work/sed_fresh_copy/sed/tutorial/datasets/WSe2&quot;</span>
 <span class="w">    </span><span class="p">},</span>
 <span class="w">    </span><span class="nt">&quot;Gd_W110&quot;</span><span class="p">:</span><span class="w"> </span><span class="p">{</span>
 <span class="w">        </span><span class="nt">&quot;url&quot;</span><span class="p">:</span><span class="w"> </span><span class="s2">&quot;https://zenodo.org/records/10658470/files/single_event_data.zip&quot;</span><span class="p">,</span>
@@ -759,7 +760,7 @@ <h2>Default datasets.json<a class="headerlink" href="#default-datasets-json" tit
 
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.dataset.dataset.DatasetsManager.json_path">
-<span class="sig-name descname"><span class="pre">json_path</span></span><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">{'folder':</span> <span class="pre">'./datasets.json',</span> <span class="pre">'module':</span> <span class="pre">'/Users/zain/Documents/Work/sed_fresh_copy/sed/sed/dataset/datasets.json',</span> <span class="pre">'user':</span> <span class="pre">'/Users/zain/Library/Application</span> <span class="pre">Support/sed/datasets.json'}</span></em><a class="headerlink" href="#sed.dataset.dataset.DatasetsManager.json_path" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">json_path</span></span><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">{'folder':</span> <span class="pre">'./datasets.json',</span> <span class="pre">'module':</span> <span class="pre">'/home/runner/work/sed/sed/sed/dataset/datasets.json',</span> <span class="pre">'user':</span> <span class="pre">'/home/runner/.config/sed/datasets.json'}</span></em><a class="headerlink" href="#sed.dataset.dataset.DatasetsManager.json_path" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
diff --git a/sed/latest/sed/dfops.html b/sed/latest/sed/dfops.html
index 7022a6e..b755749 100644
--- a/sed/latest/sed/dfops.html
+++ b/sed/latest/sed/dfops.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Dataframe Operations &#8212; SED 0.1.10a6 documentation</title>
+    <title>Dataframe Operations &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -481,14 +481,14 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to add
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to add
 noise/jittering to.</p></li>
-<li><p><strong>cols</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – Names of the columns to add jittering to.</p></li>
-<li><p><strong>cols_jittered</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Names of the columns
+<li><p><strong>cols</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – Names of the columns to add jittering to.</p></li>
+<li><p><strong>cols_jittered</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Names of the columns
 with added jitter. Defaults to None.</p></li>
-<li><p><strong>amps</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Amplitude scalings for the
+<li><p><strong>amps</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>, </em><em>optional</em>) – Amplitude scalings for the
 jittering noise. If one number is given, the same is used for all axes.
-For normal noise, the added noise will have stdev [-amp, +amp], for
+For normal noise, the added noise will have sdev [-amp, +amp], for
 uniform noise it will cover the interval [-amp, +amp].
 Defaults to 0.5.</p></li>
 <li><p><strong>jitter_type</strong> (<em>str</em><em>, </em><em>optional</em>) – the type of jitter to add. ‘uniform’ or ‘normal’
@@ -499,7 +499,7 @@
 <dd class="field-even"><p>dataframe with added columns.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -511,15 +511,15 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
-<li><p><strong>column_name</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>)</em>) – List of column names to be dropped.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
+<li><p><strong>column_name</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – List of column names to be dropped.</p></li>
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
 <dd class="field-even"><p>Dataframe with dropped columns.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -531,7 +531,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>col</strong> (<em>str</em>) – Name of the column to filter. Passing “index” for col will
 filter on the index in each dataframe partition.</p></li>
 <li><p><strong>lower_bound</strong> (<em>float</em><em>, </em><em>optional</em>) – The lower bound used in the filtering.
@@ -544,7 +544,7 @@
 <dd class="field-even"><p>The filtered dataframe.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -557,7 +557,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>time_stamps</strong> (<em>np.ndarray</em>) – Time stamps of the values to add</p></li>
 <li><p><strong>data</strong> (<em>np.ndarray</em>) – Values corresponding at the time stamps in time_stamps</p></li>
 <li><p><strong>dest_column</strong> (<em>str</em>) – destination column name</p></li>
@@ -568,7 +568,7 @@
 <dd class="field-even"><p>Dataframe with added column</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -580,7 +580,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>map_2d</strong> (<em>Callable</em>) – 2D mapping function.</p></li>
 <li><p><strong>x_column</strong> (<em>str</em>) – The X column of the dataframe to apply mapping to.</p></li>
 <li><p><strong>y_column</strong> (<em>str</em>) – The Y column of the dataframe to apply mapping to.</p></li>
@@ -591,7 +591,7 @@
 <dd class="field-even"><p>Dataframe with mapped columns.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
@@ -602,15 +602,15 @@
 <dd><p>Forward fill the specified columns multiple times in a dask dataframe.</p>
 <p>Allows forward filling between partitions. This is useful for dataframes
 that have sparse data, such as those with many NaNs.
-Running the forward filling multiple times can fix the issue of having
+Runnin the forward filling multiple times can fix the issue of having
 entire partitions consisting of NaNs. By default we run this twice, which
 is enough to fix the issue for dataframes with no consecutive partitions of NaNs.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – The dataframe to forward fill.</p></li>
-<li><p><strong>columns</strong> (<em>list</em>) – The columns to forward fill. If None, fills all columns</p></li>
-<li><p><strong>before</strong> (<em>int</em><em>, </em><em>str</em><em>, </em><em>optional</em>) – The number of rows to include before the current partition.
+<li><p><strong>columns</strong> (<em>list</em><em>, </em><em>optional</em>) – The columns to forward fill. If None, fills all columns</p></li>
+<li><p><strong>before</strong> (<em>str</em><em> | </em><em>int</em><em>, </em><em>optional</em>) – The number of rows to include before the current partition.
 if ‘max’ it takes as much as possible from the previous partition, which is
 the size of the smallest partition in the dataframe. Defaults to ‘max’.</p></li>
 <li><p><strong>compute_lengths</strong> (<em>bool</em><em>, </em><em>optional</em>) – Whether to compute the length of each partition</p></li>
@@ -637,8 +637,8 @@
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – The dataframe to forward fill.</p></li>
-<li><p><strong>columns</strong> (<em>list</em>) – The columns to forward fill. If None, fills all columns</p></li>
-<li><p><strong>after</strong> (<em>int</em><em>, </em><em>str</em><em>, </em><em>optional</em>) – The number of rows to include after the current partition.
+<li><p><strong>columns</strong> (<em>list</em><em>, </em><em>optional</em>) – The columns to forward fill. If None, fills all columns</p></li>
+<li><p><strong>after</strong> (<em>str</em><em> | </em><em>int</em><em>, </em><em>optional</em>) – The number of rows to include after the current partition.
 if ‘max’ it takes as much as possible from the previous partition, which is
 the size of the smallest partition in the dataframe. Defaults to ‘max’.</p></li>
 <li><p><strong>compute_lengths</strong> (<em>bool</em><em>, </em><em>optional</em>) – Whether to compute the length of each partition</p></li>
@@ -663,13 +663,13 @@
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>df</strong> (<em>dask.dataframe.DataFrame</em>) – Dataframe to use. Currently supports only dask dataframes.</p></li>
 <li><p><strong>target_column</strong> (<em>str</em>) – Name of the column to apply the offset to.</p></li>
-<li><p><strong>offset_columns</strong> (<em>str</em>) – Name of the column(s) to use for the offset.</p></li>
-<li><p><strong>weights</strong> (<em>Union</em><em>[</em><em>float</em><em>, </em><em>Sequence</em><em>[</em><em>float</em><em>]</em><em>]</em>) – weights to apply on each column before adding.
-Used also for changing sign.</p></li>
-<li><p><strong>reductions</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Reduction function to use for the offset.
+<li><p><strong>offset_columns</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – Name of the column(s) to use for the offset.</p></li>
+<li><p><strong>weights</strong> (<em>float</em><em> | </em><em>Sequence</em><em>[</em><em>float</em><em>]</em>) – weights to apply on each column before adding. Used also
+for changing sign.</p></li>
+<li><p><strong>reductions</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Reduction function to use for the offset.
 Defaults to “mean”. Currently, only mean is supported.</p></li>
-<li><p><strong>preserve_mean</strong> (<em>Union</em><em>[</em><em>bool</em><em>, </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Whether to subtract the mean of the
-offset column. Defaults to False. If a list is given, it must have the same length as
+<li><p><strong>preserve_mean</strong> (<em>bool</em><em> | </em><em>Sequence</em><em>[</em><em>bool</em><em>]</em><em>, </em><em>optional</em>) – Whether to subtract the mean of the offset
+column. Defaults to False. If a list is given, it must have the same length as
 offset_columns. Otherwise the value passed is used for all columns.</p></li>
 <li><p><strong>inplace</strong> (<em>bool</em><em>, </em><em>optional</em>) – Whether to apply the offset inplace.
 If false, the new column will have the name provided by rename, or has the same name as
diff --git a/sed/latest/sed/diagnostic.html b/sed/latest/sed/diagnostic.html
index 5bd8050..93a455d 100644
--- a/sed/latest/sed/diagnostic.html
+++ b/sed/latest/sed/diagnostic.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Diagnostics &#8212; SED 0.1.10a6 documentation</title>
+    <title>Diagnostics &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -507,7 +507,7 @@
 <li><p><strong>ncol</strong> (<em>int</em>) – Number of columns in the plot grid.</p></li>
 <li><p><strong>rvs</strong> (<em>Sequence</em>) – List of names for the random variables (rvs).</p></li>
 <li><p><strong>rvbins</strong> (<em>Sequence</em>) – Bin values for all random variables.</p></li>
-<li><p><strong>rvranges</strong> (<em>Sequence</em><em>[</em><em>Tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em>) – Value ranges of all random variables.</p></li>
+<li><p><strong>rvranges</strong> (<em>Sequence</em><em>[</em><em>tuple</em><em>[</em><em>float</em><em>, </em><em>float</em><em>]</em><em>]</em>) – Value ranges of all random variables.</p></li>
 <li><p><strong>backend</strong> (<em>str</em><em>, </em><em>optional</em>) – Backend for making the plot (‘matplotlib’ or ‘bokeh’).
 Defaults to “bokeh”.</p></li>
 <li><p><strong>legend</strong> (<em>bool</em><em>, </em><em>optional</em>) – Option to include a legend in each histogram plot.
diff --git a/sed/latest/sed/io.html b/sed/latest/sed/io.html
index 820de4c..5c5bdfb 100644
--- a/sed/latest/sed/io.html
+++ b/sed/latest/sed/io.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>IO &#8212; SED 0.1.10a6 documentation</title>
+    <title>IO &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -489,7 +489,7 @@
 <dd class="field-even"><p><strong>ValueError</strong> – Raised if data or axes are not found in the file.</p>
 </dd>
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
-<dd class="field-odd"><p>output xarray data</p>
+<dd class="field-odd"><p>output xarra data</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
 <dd class="field-even"><p>xr.DataArray</p>
@@ -526,7 +526,7 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>faddr</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Path</em><em>]</em>) – Path to file to load.</p></li>
+<li><p><strong>faddr</strong> (<em>str</em><em> | </em><em>Path</em>) – Path to file to load.</p></li>
 <li><p><strong>coords</strong> (<em>dict</em><em>, </em><em>optional</em>) – The axes describing the data, following the tiff
 stack order. Defaults to None.</p></li>
 <li><p><strong>dims</strong> (<em>Sequence</em><em>, </em><em>optional</em>) – the order of the coordinates provided, considering
@@ -552,19 +552,20 @@
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>data</strong> (<em>Union</em><em>[</em><em>xr.DataArray</em><em>, </em><em>np.ndarray</em><em>]</em>) – data to be saved. If a np.ndarray,
+<li><p><strong>data</strong> (<em>xr.DataArray</em><em> | </em><em>np.ndarray</em>) – data to be saved. If a np.ndarray,
 the order is retained. If it is an xarray.DataArray, the order is inferred
 from axis_dict instead. ImageJ likes tiff files with axis order as
 TZCYXS. Therefore, best axis order in input should be: Time, Energy,
 posY, posX. The channels ‘C’ and ‘S’ are automatically added and can
 be ignored.</p></li>
-<li><p><strong>faddr</strong> (<em>Union</em><em>[</em><em>Path</em><em>, </em><em>str</em><em>]</em>) – full path and name of file to save.</p></li>
+<li><p><strong>str</strong><strong>)</strong> (<em>faddr Path</em><em> |</em>) – full path and name of file to save.</p></li>
 <li><p><strong>alias_dict</strong> (<em>dict</em><em>, </em><em>optional</em>) – name pairs for correct axis ordering. Keys should
 be any of T,Z,C,Y,X,S. The Corresponding value should be a dimension of the
 xarray or the dimension number if a numpy array. This is used to sort the
 data in the correct order for imagej standards. If None it tries to guess
 the order from the name of the axes or assumes T,Z,C,Y,X,S order for numpy
 arrays. Defaults to None.</p></li>
+<li><p><strong>faddr</strong> (<span class="sphinx_autodoc_typehints-type">Path | str</span>)</p></li>
 </ul>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
@@ -589,10 +590,9 @@
 data._attrs[“metadata”].</p></li>
 <li><p><strong>faddr</strong> (<em>str</em>) – The file path to save to.</p></li>
 <li><p><strong>reader</strong> (<em>str</em>) – The name of the NeXus reader to use.</p></li>
-<li><p><strong>definition</strong> (<em>str</em>) – The NeXus definition to use.</p></li>
-<li><p><strong>input_files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em>) – The file path or paths to the additional files to
-use.</p></li>
-<li><p><strong>**kwds</strong> – Keyword arguments for <code class="docutils literal notranslate"><span class="pre">pynxtools.dataconverter.convert.convert()</span></code>.</p></li>
+<li><p><strong>definition</strong> (<em>str</em>) – The NeXus definiton to use.</p></li>
+<li><p><strong>input_files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em>) – The file path or paths to the additional files to use.</p></li>
+<li><p><strong>**kwds</strong> – Keyword arguments for <code class="docutils literal notranslate"><span class="pre">nexusutils.dataconverter.convert</span></code>.</p></li>
 </ul>
 </dd>
 </dl>
diff --git a/sed/latest/sed/loader.html b/sed/latest/sed/loader.html
index ae901c1..3c6b465 100644
--- a/sed/latest/sed/loader.html
+++ b/sed/latest/sed/loader.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Data loader &#8212; SED 0.1.10a6 documentation</title>
+    <title>Data loader &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -508,7 +508,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-odd"><p>List of all detected loader names.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>List[str]</p>
+<dd class="field-even"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -534,7 +534,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.loader.base.loader.BaseLoader.supported_file_types">
-<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><code class="xref py py-class docutils literal notranslate"><span class="pre">typing.List</span></code><span class="pre">[</span><code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code><span class="pre">]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">[]</span></em><a class="headerlink" href="#sed.loader.base.loader.BaseLoader.supported_file_types" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><code class="xref py py-class docutils literal notranslate"><span class="pre">list</span></code><span class="pre">[</span><code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code><span class="pre">]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">[]</span></em><a class="headerlink" href="#sed.loader.base.loader.BaseLoader.supported_file_types" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
@@ -545,14 +545,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
+<li><p><strong>files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
 Defaults to None.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
 are stored. Path has priority such that if it’s specified, the specified
 files will be ignored. Defaults to None.</p></li>
-<li><p><strong>runs</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
+<li><p><strong>runs</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
 files will be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes
-precedence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
+precendence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
 <li><p><strong>ftype</strong> (<em>str</em><em>, </em><em>optional</em>) – File type to read (‘parquet’, ‘json’, ‘csv’, etc).
 If a folder path is given, all files with the specified extension are
 read into the dataframe in the reading order. Defaults to None.</p></li>
@@ -568,7 +568,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 read from specified files.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[ddf.DataFrame, dict]</p>
+<dd class="field-odd"><p>tuple[ddf.DataFrame, ddf.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -581,7 +581,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>run_id</strong> (<em>str</em>) – The run identifier to locate.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
 data is located. Defaults to None.</p></li>
 <li><p><strong>extension</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension. Defaults to None.</p></li>
 <li><p><strong>kwds</strong> – Keyword arguments</p></li>
@@ -591,7 +591,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>List of files for the given run.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -613,7 +613,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 into the scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -669,7 +669,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.loader.generic.loader.GenericLoader.supported_file_types">
-<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['parquet',</span> <span class="pre">'csv',</span> <span class="pre">'json']</span></em><a class="headerlink" href="#sed.loader.generic.loader.GenericLoader.supported_file_types" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['parquet',</span> <span class="pre">'csv',</span> <span class="pre">'json']</span></em><a class="headerlink" href="#sed.loader.generic.loader.GenericLoader.supported_file_types" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
@@ -679,14 +679,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
+<li><p><strong>files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
 Defaults to None.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
 are stored. Path has priority such that if it’s specified, the specified
 files will be ignored. Defaults to None.</p></li>
-<li><p><strong>runs</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
+<li><p><strong>runs</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
 files will be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes
-precedence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
+precendence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
 <li><p><strong>ftype</strong> (<em>str</em><em>, </em><em>optional</em>) – File type to read (‘parquet’, ‘json’, ‘csv’, etc).
 If a folder path is given, all files with the specified extension are
 read into the dataframe in the reading order. Defaults to “parquet”.</p></li>
@@ -701,7 +701,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><ul class="simple">
 <li><p><strong>ValueError</strong> – Raised if neither files nor folder provided.</p></li>
-<li><p><strong>FileNotFoundError</strong> – Raised if the files or folder cannot be found.</p></li>
+<li><p><strong>FileNotFoundError</strong> – Raised if the fileds or folder cannot be found.</p></li>
 <li><p><strong>ValueError</strong> – Raised if the file type is not supported.</p></li>
 </ul>
 </dd>
@@ -710,7 +710,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 read from specified files.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[ddf.DataFrame, dict]</p>
+<dd class="field-even"><p>tuple[ddf.DataFrame, ddf.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -723,7 +723,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>run_id</strong> (<em>str</em>) – The run identifier to locate.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
 data is located. Defaults to None.</p></li>
 <li><p><strong>extension</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension. Defaults to “h5”.</p></li>
 <li><p><strong>kwds</strong> – Keyword arguments</p></li>
@@ -733,7 +733,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>Path to the location of run data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>str</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -755,7 +755,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 into the scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -806,7 +806,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <li><p><strong>files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em>) – A list of the file paths to load.</p></li>
 <li><p><strong>group_names</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – hdf5 group names to load. Defaults to load
 all groups containing “Stream”</p></li>
-<li><p><strong>alias_dict</strong> (<em>Dict</em><em>[</em><em>str</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Dictionary of aliases for the dataframe
+<li><p><strong>alias_dict</strong> (<em>dict</em><em>[</em><em>str</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Dictionary of aliases for the dataframe
 columns. Keys are the hdf5 groupnames, and values the aliases. If an alias
 is not found, its group name is used. Defaults to read the attribute
 “Name” from each group.</p></li>
@@ -841,7 +841,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <li><p><strong>files</strong> (<em>List</em><em>[</em><em>str</em><em>]</em>) – A list of the file paths to load.</p></li>
 <li><p><strong>group_names</strong> (<em>List</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – hdf5 group names to load. Defaults to load
 all groups containing “Stream”</p></li>
-<li><p><strong>alias_dict</strong> (<em>Dict</em><em>[</em><em>str</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Dictionary of aliases for the dataframe
+<li><p><strong>alias_dict</strong> (<em>dict</em><em>[</em><em>str</em><em>, </em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Dictionary of aliases for the dataframe
 columns. Keys are the hdf5 groupnames, and values the aliases. If an alias
 is not found, its group name is used. Defaults to read the attribute
 “Name” from each group.</p></li>
@@ -866,13 +866,13 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.loader.mpes.loader.get_groups_and_aliases">
-<span class="sig-prename descclassname"><span class="pre">sed.loader.mpes.loader.</span></span><span class="sig-name descname"><span class="pre">get_groups_and_aliases</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">h5file</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">search_pattern</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">alias_key</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'Name'</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/loader/mpes/loader.html#get_groups_and_aliases"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.loader.mpes.loader.get_groups_and_aliases" title="Link to this definition">#</a></dt>
+<span class="sig-prename descclassname"><span class="pre">sed.loader.mpes.loader.</span></span><span class="sig-name descname"><span class="pre">get_groups_and_aliases</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">h5file</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">seach_pattern</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">None</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">alias_key</span></span><span class="o"><span class="pre">=</span></span><span class="default_value"><span class="pre">'Name'</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/loader/mpes/loader.html#get_groups_and_aliases"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.loader.mpes.loader.get_groups_and_aliases" title="Link to this definition">#</a></dt>
 <dd><p>Read groups and aliases from a provided hdf5 file handle</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>h5file</strong> (<em>h5py.File</em>) – The hdf5 file handle</p></li>
-<li><p><strong>search_pattern</strong> (<em>str</em><em>, </em><em>optional</em>) – Search pattern to select groups. Defaults to include all groups.</p></li>
+<li><p><strong>seach_pattern</strong> (<em>str</em><em>, </em><em>optional</em>) – Search pattern to select groups. Defaults to include all groups.</p></li>
 <li><p><strong>alias_key</strong> (<em>str</em><em>, </em><em>optional</em>) – Attribute key where aliases are stored. Defaults to “Name”.</p></li>
 </ul>
 </dd>
@@ -880,7 +880,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>The list of groupnames and the alias dictionary parsed from the file</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[List[str], Dict[str, str]]</p>
+<dd class="field-odd"><p>tuple[list[str], dict[str, str]]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -931,7 +931,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>the array of the values at evenly spaced timing obtained from
+<dd class="field-even"><p>the array of the values at evently spaced timing obtained from
 the ms_markers.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
@@ -943,7 +943,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="py function">
 <dt class="sig sig-object py" id="sed.loader.mpes.loader.get_attribute">
 <span class="sig-prename descclassname"><span class="pre">sed.loader.mpes.loader.</span></span><span class="sig-name descname"><span class="pre">get_attribute</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">h5group</span></span></em>, <em class="sig-param"><span class="n"><span class="pre">attribute</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/loader/mpes/loader.html#get_attribute"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.loader.mpes.loader.get_attribute" title="Link to this definition">#</a></dt>
-<dd><p>Reads, decodes and returns an attribute from an hdf5 group</p>
+<dd><p>Reads, decodes and returns an attrubute from an hdf5 group</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
@@ -977,7 +977,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -995,7 +995,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>The acquisition time of the file in seconds.</p>
+<dd class="field-even"><p>The acquision time of the file in seconds.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
 <dd class="field-odd"><p>float</p>
@@ -1020,7 +1020,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>The extracted time stamps and corresponding data</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[List, List]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1041,7 +1041,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.loader.mpes.loader.MpesLoader.supported_file_types">
-<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.mpes.loader.MpesLoader.supported_file_types" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.mpes.loader.MpesLoader.supported_file_types" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
@@ -1052,14 +1052,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
+<li><p><strong>files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process.
 Defaults to None.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files
 are stored. Path has priority such that if it’s specified, the specified
 files will be ignored. Defaults to None.</p></li>
-<li><p><strong>runs</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
+<li><p><strong>runs</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding
 files will be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes
-precedence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
+precendence over <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
 <li><p><strong>ftype</strong> (<em>str</em><em>, </em><em>optional</em>) – File extension to use. If a folder path is given,
 all files with the specified extension are read into the dataframe
 in the reading order. Defaults to “h5”.</p></li>
@@ -1093,7 +1093,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 dataframe and metadata read from specified files.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[ddf.DataFrame, ddf.DataFrame, dict]</p>
+<dd class="field-even"><p>tuple[ddf.DataFrame, ddf.DataFrame, dict]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1106,7 +1106,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>run_id</strong> (<em>str</em>) – The run identifier to locate.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
 data is located. Defaults to config[“core”][“base_folder”]</p></li>
 <li><p><strong>extension</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension. Defaults to “h5”.</p></li>
 <li><p><strong>kwds</strong> – Keyword arguments</p></li>
@@ -1116,7 +1116,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>List of file path strings to the location of run data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1130,7 +1130,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-odd"><p>A tuple containing the start and end time stamps</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[float, float]</p>
+<dd class="field-even"><p>tuple[float, float]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1178,7 +1178,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 into the scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1226,7 +1226,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 The dataframe is a amalgamation of all h5 files for a combination of runs, where the NaNs are
 automatically forward filled across different files.
 This can then be saved as a parquet for out-of-sed processing and reread back to access other
-sed functionality.</p>
+sed funtionality.</p>
 <dl class="py class">
 <dt class="sig sig-object py" id="sed.loader.flash.loader.FlashLoader">
 <em class="property"><span class="pre">class</span><span class="w"> </span></em><span class="sig-prename descclassname"><span class="pre">sed.loader.flash.loader.</span></span><span class="sig-name descname"><span class="pre">FlashLoader</span></span><span class="sig-paren">(</span><em class="sig-param"><span class="n"><span class="pre">config</span></span></em><span class="sig-paren">)</span><a class="reference internal" href="../_modules/sed/loader/flash/loader.html#FlashLoader"><span class="viewcode-link"><span class="pre">[source]</span></span></a><a class="headerlink" href="#sed.loader.flash.loader.FlashLoader" title="Link to this definition">#</a></dt>
@@ -1241,7 +1241,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.loader.flash.loader.FlashLoader.supported_file_types">
-<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.flash.loader.FlashLoader.supported_file_types" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.flash.loader.FlashLoader.supported_file_types" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
@@ -1254,7 +1254,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 paths and the parquet data directory path.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[List[Path], Path]</p>
+<dd class="field-even"><p>tuple[list[Path], Path]</p>
 </dd>
 <dt class="field-odd">Raises<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
@@ -1274,7 +1274,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>run_id</strong> (<em>str</em>) – The run identifier to locate.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
 data is located. Defaults to config[“core”][“base_folder”].</p></li>
 <li><p><strong>extension</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension. Defaults to “h5”.</p></li>
 <li><p><strong>kwds</strong> – Keyword arguments:
@@ -1285,7 +1285,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>A list of path strings representing the collected file names.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If no files are found for the given run in the directory.</p>
@@ -1295,7 +1295,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.loader.flash.loader.FlashLoader.available_channels">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">available_channels</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List</span></em><a class="headerlink" href="#sed.loader.flash.loader.FlashLoader.available_channels" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">available_channels</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list</span></em><a class="headerlink" href="#sed.loader.flash.loader.FlashLoader.available_channels" title="Link to this definition">#</a></dt>
 <dd><p>Returns the channel names that are available for use,
 excluding pulseId, defined by the json file</p>
 </dd></dl>
@@ -1307,7 +1307,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>formats</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>List</em><em>[</em><em>str</em><em>]</em><em>]</em>) – The desired format(s)
+<li><p><strong>formats</strong> (<em>str</em><em> | </em><em>list</em><em>[</em><em>str</em><em>]</em>) – The desired format(s)
 (‘per_pulse’, ‘per_electron’, ‘per_train’, ‘all’).</p></li>
 <li><p><strong>index</strong> (<em>bool</em>) – If True, includes channels from the multi_index.</p></li>
 </ul>
@@ -1316,7 +1316,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>A list of channels with the specified format(s).</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1400,7 +1400,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 for the channel’s data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[Series, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[Series, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1451,8 +1451,8 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <p class="rubric">Notes</p>
 <ul class="simple">
-<li><p>For auxiliary channels, the macrobunch resolved data is repeated 499 times to be
-compared to electron resolved data for each auxiliary channel. The data is then
+<li><p>For auxillary channels, the macrobunch resolved data is repeated 499 times to be
+compared to electron resolved data for each auxillary channel. The data is then
 converted to a multicolumn DataFrame.</p></li>
 <li><p>For all other pulse resolved channels, the macrobunch resolved data is exploded
 to a DataFrame and the MultiIndex is set.</p></li>
@@ -1498,7 +1498,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>A pandas Series or DataFrame representing the channel’s data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[Series, DataFrame]</p>
+<dd class="field-odd"><p>Series | DataFrame</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>ValueError</strong> – If the channel has an undefined format.</p>
@@ -1562,11 +1562,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <li><p><strong>parquet_path</strong> (<em>Path</em>) – Path to the output Parquet file.</p></li>
 </ul>
 </dd>
-<dt class="field-even">Raises<span class="colon">:</span></dt>
-<dd class="field-even"><p><strong>ValueError</strong> – If an error occurs during the conversion process.</p>
+<dt class="field-even">Returns<span class="colon">:</span></dt>
+<dd class="field-even"><p>Collected exceptions, if any.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Union</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">bool</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">Exception</span></code>]</span></p>
+<dd class="field-odd"><p>bool | Exception</p>
+</dd>
+<dt class="field-even">Raises<span class="colon">:</span></dt>
+<dd class="field-even"><p><strong>ValueError</strong> – If an error occurs during the conversion process.</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1588,7 +1591,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 parquet file paths, one for metadata and one for schema.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[List[Path], List, List]</p>
+<dd class="field-odd"><p>tuple[list[Path], list, list]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If the conversion fails for any files or no data is available.</p>
@@ -1620,7 +1623,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 - dataframe_pulse: Dataframe containing the loaded/augmented timed data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>tuple</p>
+<dd class="field-odd"><p>tuple[dd.DataFrame, dd.DataFrame]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If the requested parquet file is not found.</p>
@@ -1663,7 +1666,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 into the scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -1696,12 +1699,12 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process. Defaults to None.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files are stored
+<li><p><strong>files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process. Defaults to None.</p></li>
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files are stored
 Path has priority such that if it’s specified, the specified files will be ignored.
 Defaults to None.</p></li>
-<li><p><strong>runs</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding files will
-be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes precedence over
+<li><p><strong>runs</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding files will
+be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes precendence over
 <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
 <li><p><strong>ftype</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension type. Defaults to “h5”.</p></li>
 <li><p><strong>metadata</strong> (<em>dict</em><em>, </em><em>optional</em>) – Additional metadata. Defaults to None.</p></li>
@@ -1709,10 +1712,11 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>A tuple containing the concatenated DataFrame and metadata.</p>
+<dd class="field-even"><p>A tuple containing the concatenated DataFrame
+and metadata.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[dd.DataFrame, dict]</p>
+<dd class="field-odd"><p>tuple[dd.DataFrame, dd.DataFrame, dict]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><ul class="simple">
@@ -1742,7 +1746,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>metadata_config</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-class docutils literal notranslate"><span class="pre">typing.Dict</span></code></span>)</p></li>
+<li><p><strong>metadata_config</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-class docutils literal notranslate"><span class="pre">dict</span></code></span>)</p></li>
 <li><p><strong>scicat_token</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Optional</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code>]</span>, default: <code class="docutils literal notranslate"><span class="pre">None</span></code>)</p></li>
 </ul>
 </dd>
@@ -1756,7 +1760,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>beamtime_id</strong> (<em>str</em>) – The ID of the beamtime.</p></li>
 <li><p><strong>runs</strong> (<em>list</em>) – A list of run IDs.</p></li>
-<li><p><strong>metadata</strong> (<em>Dict</em><em>, </em><em>optional</em>) – The existing metadata dictionary.</p></li>
+<li><p><strong>metadata</strong> (<em>dict</em><em>, </em><em>optional</em>) – The existing metadata dictionary.</p></li>
 <li><p><strong>None.</strong> (<em>Defaults to</em>)</p></li>
 </ul>
 </dd>
@@ -1783,7 +1787,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 The dataframe is a amalgamation of all h5 files for a combination of runs, where the NaNs are
 automatically forward filled across different files.
 This can then be saved as a parquet for out-of-sed processing and reread back to access other
-sed functionality.
+sed funtionality.
 Most of the structure is identical to the FLASH loader.</p>
 <dl class="py class">
 <dt class="sig sig-object py" id="sed.loader.sxp.loader.SXPLoader">
@@ -1799,7 +1803,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <dl class="py attribute">
 <dt class="sig sig-object py" id="sed.loader.sxp.loader.SXPLoader.supported_file_types">
-<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.sxp.loader.SXPLoader.supported_file_types" title="Link to this definition">#</a></dt>
+<span class="sig-name descname"><span class="pre">supported_file_types</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list[str]</span></em><em class="property"><span class="w"> </span><span class="p"><span class="pre">=</span></span><span class="w"> </span><span class="pre">['h5']</span></em><a class="headerlink" href="#sed.loader.sxp.loader.SXPLoader.supported_file_types" title="Link to this definition">#</a></dt>
 <dd></dd></dl>
 
 <dl class="py method">
@@ -1812,7 +1816,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 paths and the parquet data directory path.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>Tuple[List[Path], Path]</p>
+<dd class="field-even"><p>tuple[List[Path], Path]</p>
 </dd>
 <dt class="field-odd">Raises<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
@@ -1832,7 +1836,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>run_id</strong> (<em>str</em>) – The run identifier to locate.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – The directory(ies) where the raw
 data is located. Defaults to config[“core”][“base_folder”].</p></li>
 <li><p><strong>extension</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension. Defaults to “h5”.</p></li>
 <li><p><strong>kwds</strong> – Keyword arguments:
@@ -1843,7 +1847,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>A list of path strings representing the collected file names.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If no files are found for the given run in the directory.</p>
@@ -1853,7 +1857,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.loader.sxp.loader.SXPLoader.available_channels">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">available_channels</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">List</span></em><a class="headerlink" href="#sed.loader.sxp.loader.SXPLoader.available_channels" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">available_channels</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">list</span></em><a class="headerlink" href="#sed.loader.sxp.loader.SXPLoader.available_channels" title="Link to this definition">#</a></dt>
 <dd><p>Returns the channel names that are available for use,
 excluding pulseId, defined by the json file</p>
 </dd></dl>
@@ -1865,7 +1869,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>formats</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>List</em><em>[</em><em>str</em><em>]</em><em>]</em>) – The desired format(s)
+<li><p><strong>formats</strong> (<em>str</em><em> | </em><em>list</em><em>[</em><em>str</em><em>]</em>) – The desired format(s)
 (‘per_pulse’, ‘per_electron’, ‘per_train’, ‘all’).</p></li>
 <li><p><strong>index</strong> (<em>bool</em>) – If True, includes channels from the multi_index.</p></li>
 </ul>
@@ -1958,7 +1962,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 for the channel’s data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[Series, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[Series, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2008,8 +2012,8 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </dl>
 <p class="rubric">Notes</p>
 <ul class="simple">
-<li><p>For auxiliary channels, the macrobunch resolved data is repeated 499 times to be
-compared to electron resolved data for each auxiliary channel. The data is then
+<li><p>For auxillary channels, the macrobunch resolved data is repeated 499 times to be
+compared to electron resolved data for each auxillary channel. The data is then
 converted to a multicolumn DataFrame.</p></li>
 <li><p>For all other pulse resolved channels, the macrobunch resolved data is exploded
 to a DataFrame and the MultiIndex is set.</p></li>
@@ -2055,7 +2059,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>A pandas Series or DataFrame representing the channel’s data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[Series, DataFrame]</p>
+<dd class="field-odd"><p>Series | DataFrame</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>ValueError</strong> – If the channel has an undefined format.</p>
@@ -2119,11 +2123,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <li><p><strong>parquet_path</strong> (<em>Path</em>) – Path to the output Parquet file.</p></li>
 </ul>
 </dd>
-<dt class="field-even">Raises<span class="colon">:</span></dt>
-<dd class="field-even"><p><strong>ValueError</strong> – If an error occurs during the conversion process.</p>
+<dt class="field-even">Returns<span class="colon">:</span></dt>
+<dd class="field-even"><p>Collected exceptions if any.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p><span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Union</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">bool</span></code>, <code class="xref py py-class docutils literal notranslate"><span class="pre">Exception</span></code>]</span></p>
+<dd class="field-odd"><p>bool | Exception</p>
+</dd>
+<dt class="field-even">Raises<span class="colon">:</span></dt>
+<dd class="field-even"><p><strong>ValueError</strong> – If an error occurs during the conversion process.</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2145,7 +2152,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 parquet file paths, one for metadata and one for schema.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[List[Path], List, List]</p>
+<dd class="field-odd"><p>tuple[list[Path], list, list]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If the conversion fails for any files or no data is available.</p>
@@ -2177,7 +2184,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 - dataframe_pulse: Dataframe containing the loaded/augmented timed data.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>tuple</p>
+<dd class="field-odd"><p>tuple[dd.DataFrame, dd.DataFrame]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><p><strong>FileNotFoundError</strong> – If the requested parquet file is not found.</p>
@@ -2220,7 +2227,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 into the scan.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[np.ndarray, np.ndarray]</p>
+<dd class="field-odd"><p>tuple[np.ndarray, np.ndarray]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2253,12 +2260,12 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>files</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process. Defaults to None.</p></li>
-<li><p><strong>folders</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files are stored
+<li><p><strong>files</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – File path(s) to process. Defaults to None.</p></li>
+<li><p><strong>folders</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Path to folder(s) where files are stored
 Path has priority such that if it’s specified, the specified files will be ignored.
 Defaults to None.</p></li>
-<li><p><strong>runs</strong> (<em>Union</em><em>[</em><em>str</em><em>, </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding files will
-be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes precedence over
+<li><p><strong>runs</strong> (<em>str</em><em> | </em><em>Sequence</em><em>[</em><em>str</em><em>]</em><em>, </em><em>optional</em>) – Run identifier(s). Corresponding files will
+be located in the location provided by <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Takes precendence over
 <code class="docutils literal notranslate"><span class="pre">files</span></code> and <code class="docutils literal notranslate"><span class="pre">folders</span></code>. Defaults to None.</p></li>
 <li><p><strong>ftype</strong> (<em>str</em><em>, </em><em>optional</em>) – The file extension type. Defaults to “h5”.</p></li>
 <li><p><strong>metadata</strong> (<em>dict</em><em>, </em><em>optional</em>) – Additional metadata. Defaults to None.</p></li>
@@ -2266,10 +2273,11 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </ul>
 </dd>
 <dt class="field-even">Returns<span class="colon">:</span></dt>
-<dd class="field-even"><p>A tuple containing the concatenated DataFrame and metadata.</p>
+<dd class="field-even"><p>A tuple containing the concatenated DataFrame,
+timed DataFrame, and metadata.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Tuple[dd.DataFrame, dict]</p>
+<dd class="field-odd"><p>tuple[dd.DataFrame, dd.DataFrame, dict]</p>
 </dd>
 <dt class="field-even">Raises<span class="colon">:</span></dt>
 <dd class="field-even"><ul class="simple">
@@ -2315,7 +2323,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>List of collected file names.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>List[str]</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
@@ -2336,7 +2344,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-odd"><p>A list of channel names in the H5 file.</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
-<dd class="field-even"><p>List[str]</p>
+<dd class="field-even"><p>list[str]</p>
 </dd>
 <dt class="field-odd">Raises<span class="colon">:</span></dt>
 <dd class="field-odd"><p><strong>Exception</strong> – If an error occurs while parsing the keys.</p>
@@ -2381,7 +2389,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>df</strong> (<em>Union</em><em>[</em><em>pd.DataFrame</em><em>, </em><em>dask.dataframe.DataFrame</em><em>]</em>) – Dataframe to use.</p></li>
+<li><p><strong>df</strong> (<em>pd.DataFrame</em><em> | </em><em>dask.dataframe.DataFrame</em>) – Dataframe to use.</p></li>
 <li><p><strong>tof_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the
 time-of-flight steps. Defaults to config[“dataframe”][“tof_column”].</p></li>
 <li><p><strong>sector_id_column</strong> (<em>str</em><em>, </em><em>optional</em>) – Name of the column containing the
@@ -2394,14 +2402,14 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>Dataframe with the new columns.</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>Union[pd.DataFrame, dask.dataframe.DataFrame]</p>
+<dd class="field-odd"><p>pd.DataFrame | dask.dataframe.DataFrame</p>
 </dd>
 </dl>
 </dd></dl>
 
 <p id="module-sed.loader.mirrorutil">module sed.loader.mirrorutil, code for transparently mirroring file system trees to a
 second (local) location. This is speeds up binning of data stored on network drives
-tremendously.
+tremendiously.
 Mostly ported from <a class="github reference external" href="https://github.com/mpes-kit/mpes">mpes-kit/mpes</a>.
 &#64;author: L. Rettig</p>
 <dl class="py class">
@@ -2412,7 +2420,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
 <dd class="field-odd"><ul class="simple">
-<li><p><strong>source</strong> (<em>str</em>) – Source path for the copy tool.</p></li>
+<li><p><strong>source</strong> (<em>str</em>) – Dource path for the copy tool.</p></li>
 <li><p><strong>dest</strong> (<em>str</em>) – Destination path for the copy tool.</p></li>
 </ul>
 </dd>
@@ -2504,7 +2512,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 </ul>
 </dd>
 <dt class="field-odd">Returns<span class="colon">:</span></dt>
-<dd class="field-odd"><p>The mapped target directory inside dest</p>
+<dd class="field-odd"><p>The mapped targed directory inside dest</p>
 </dd>
 <dt class="field-even">Return type<span class="colon">:</span></dt>
 <dd class="field-even"><p>str</p>
@@ -2528,7 +2536,7 @@ <h1>Data loader<a class="headerlink" href="#data-loader" title="Link to this hea
 <dd class="field-even"><p>Path of created directories</p>
 </dd>
 <dt class="field-odd">Return type<span class="colon">:</span></dt>
-<dd class="field-odd"><p>str</p>
+<dd class="field-odd"><p>list[str]</p>
 </dd>
 </dl>
 </dd></dl>
diff --git a/sed/latest/sed/metadata.html b/sed/latest/sed/metadata.html
index 3200154..0119120 100644
--- a/sed/latest/sed/metadata.html
+++ b/sed/latest/sed/metadata.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Metadata &#8212; SED 0.1.10a6 documentation</title>
+    <title>Metadata &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -482,12 +482,12 @@
 and give a nice representation of them.</p>
 <dl class="field-list simple">
 <dt class="field-odd">Parameters<span class="colon">:</span></dt>
-<dd class="field-odd"><p><strong>meta</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Optional</span></code>[<code class="xref py py-class docutils literal notranslate"><span class="pre">typing.Dict</span></code>]</span>, default: <code class="docutils literal notranslate"><span class="pre">None</span></code>)</p>
+<dd class="field-odd"><p><strong>meta</strong> (<em>dict</em><em>, </em><em>optional</em>) – Pre-existing metadata dict. Defaults to None.</p>
 </dd>
 </dl>
 <dl class="py property">
 <dt class="sig sig-object py" id="sed.core.metadata.MetaHandler.metadata">
-<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">metadata</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">Dict</span></em><a class="headerlink" href="#sed.core.metadata.MetaHandler.metadata" title="Link to this definition">#</a></dt>
+<em class="property"><span class="pre">property</span><span class="w"> </span></em><span class="sig-name descname"><span class="pre">metadata</span></span><em class="property"><span class="p"><span class="pre">:</span></span><span class="w"> </span><span class="pre">dict</span></em><a class="headerlink" href="#sed.core.metadata.MetaHandler.metadata" title="Link to this definition">#</a></dt>
 <dd><p>Property returning the metadata dict.
 :returns: Dictionary of metadata.
 :rtype: dict</p>
@@ -502,7 +502,7 @@
 <dd class="field-odd"><ul class="simple">
 <li><p><strong>entry</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-data docutils literal notranslate"><span class="pre">typing.Any</span></code></span>) – dictionary containing the metadata to add.</p></li>
 <li><p><strong>name</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code></span>) – name of the dictionary key under which to add entry.</p></li>
-<li><p><strong>duplicate_policy</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code></span>, default: <code class="docutils literal notranslate"><span class="pre">'raise'</span></code>) – <p>Control behavior in case the ‘name’ key
+<li><p><strong>duplicate_policy</strong> (<span class="sphinx_autodoc_typehints-type"><code class="xref py py-class docutils literal notranslate"><span class="pre">str</span></code></span>, default: <code class="docutils literal notranslate"><span class="pre">'raise'</span></code>) – <p>Control behaviour in case the ‘name’ key
 is already present in the metadata dictionary. Can be any of:</p>
 <blockquote>
 <div><ul>
diff --git a/sed/latest/user_guide/1_binning_fake_data.html b/sed/latest/user_guide/1_binning_fake_data.html
index 9047964..677b4e7 100644
--- a/sed/latest/user_guide/1_binning_fake_data.html
+++ b/sed/latest/user_guide/1_binning_fake_data.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Binning demonstration on locally generated fake data &#8212; SED 0.1.10a6 documentation</title>
+    <title>Binning demonstration on locally generated fake data &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -36,7 +36,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -47,7 +47,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -127,7 +127,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -540,33 +540,33 @@ <h2>Generate Fake Data<a class="headerlink" href="#Generate-Fake-Data" title="Li
   <tbody>
     <tr>
       <th>0</th>
-      <td>1.099223</td>
-      <td>2.358426</td>
-      <td>1.273596</td>
+      <td>-2.352188</td>
+      <td>0.018544</td>
+      <td>0.087294</td>
     </tr>
     <tr>
       <th>1</th>
-      <td>-1.225348</td>
-      <td>-1.008053</td>
-      <td>-0.421557</td>
+      <td>0.661999</td>
+      <td>-2.894941</td>
+      <td>0.220710</td>
     </tr>
     <tr>
       <th>2</th>
-      <td>0.269306</td>
-      <td>-0.709568</td>
-      <td>1.330315</td>
+      <td>-0.924308</td>
+      <td>-1.126615</td>
+      <td>-0.637220</td>
     </tr>
     <tr>
       <th>3</th>
-      <td>-2.039608</td>
-      <td>-0.134934</td>
-      <td>2.528361</td>
+      <td>-0.797949</td>
+      <td>0.051009</td>
+      <td>-1.290132</td>
     </tr>
     <tr>
       <th>4</th>
-      <td>-0.289571</td>
-      <td>2.037927</td>
-      <td>0.832904</td>
+      <td>-0.019662</td>
+      <td>0.205863</td>
+      <td>1.269046</td>
     </tr>
     <tr>
       <th>...</th>
@@ -576,33 +576,33 @@ <h2>Generate Fake Data<a class="headerlink" href="#Generate-Fake-Data" title="Li
     </tr>
     <tr>
       <th>99995</th>
-      <td>0.243452</td>
-      <td>-1.305578</td>
-      <td>1.034903</td>
+      <td>1.733657</td>
+      <td>-0.240760</td>
+      <td>-0.523856</td>
     </tr>
     <tr>
       <th>99996</th>
-      <td>1.188316</td>
-      <td>0.425674</td>
-      <td>-1.380265</td>
+      <td>0.933419</td>
+      <td>-1.249297</td>
+      <td>-0.200826</td>
     </tr>
     <tr>
       <th>99997</th>
-      <td>-1.674443</td>
-      <td>1.715874</td>
-      <td>0.104226</td>
+      <td>-0.211517</td>
+      <td>0.836925</td>
+      <td>-0.111336</td>
     </tr>
     <tr>
       <th>99998</th>
-      <td>-0.466612</td>
-      <td>-1.209274</td>
-      <td>-0.092987</td>
+      <td>1.461525</td>
+      <td>0.306676</td>
+      <td>-0.803900</td>
     </tr>
     <tr>
       <th>99999</th>
-      <td>0.294573</td>
-      <td>-1.874502</td>
-      <td>-1.150481</td>
+      <td>0.532887</td>
+      <td>-1.725969</td>
+      <td>2.022515</td>
     </tr>
   </tbody>
 </table>
@@ -646,8 +646,8 @@ <h2>Compute the binning along the pandas dataframe<a class="headerlink" href="#C
 </div>
 <div class="output_area docutils container">
 <div class="highlight"><pre>
-CPU times: user 1 s, sys: 49.9 ms, total: 1.05 s
-Wall time: 1.18 s
+CPU times: user 1.33 s, sys: 51.7 ms, total: 1.38 s
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diff --git a/sed/latest/user_guide/1_binning_fake_data.ipynb b/sed/latest/user_guide/1_binning_fake_data.ipynb
index 1fc0aff..2d4ad17 100644
--- a/sed/latest/user_guide/1_binning_fake_data.ipynb
+++ b/sed/latest/user_guide/1_binning_fake_data.ipynb
@@ -19,10 +19,10 @@
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-     "iopub.status.idle": "2024-07-08T17:09:22.439931Z",
-     "shell.execute_reply": "2024-07-08T17:09:22.439464Z"
+     "iopub.execute_input": "2024-07-08T21:56:09.683840Z",
+     "iopub.status.busy": "2024-07-08T21:56:09.683631Z",
+     "iopub.status.idle": "2024-07-08T21:56:12.294341Z",
+     "shell.execute_reply": "2024-07-08T21:56:12.293658Z"
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@@ -54,10 +54,10 @@
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    "metadata": {
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-     "iopub.status.idle": "2024-07-08T17:09:22.460938Z",
-     "shell.execute_reply": "2024-07-08T17:09:22.460585Z"
+     "iopub.execute_input": "2024-07-08T21:56:12.297467Z",
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+     "iopub.status.idle": "2024-07-08T21:56:12.323119Z",
+     "shell.execute_reply": "2024-07-08T21:56:12.322522Z"
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@@ -90,33 +90,33 @@
        "  <tbody>\n",
        "    <tr>\n",
        "      <th>0</th>\n",
-       "      <td>1.099223</td>\n",
-       "      <td>2.358426</td>\n",
-       "      <td>1.273596</td>\n",
+       "      <td>-2.352188</td>\n",
+       "      <td>0.018544</td>\n",
+       "      <td>0.087294</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>1</th>\n",
-       "      <td>-1.225348</td>\n",
-       "      <td>-1.008053</td>\n",
-       "      <td>-0.421557</td>\n",
+       "      <td>0.661999</td>\n",
+       "      <td>-2.894941</td>\n",
+       "      <td>0.220710</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>2</th>\n",
-       "      <td>0.269306</td>\n",
-       "      <td>-0.709568</td>\n",
-       "      <td>1.330315</td>\n",
+       "      <td>-0.924308</td>\n",
+       "      <td>-1.126615</td>\n",
+       "      <td>-0.637220</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>3</th>\n",
-       "      <td>-2.039608</td>\n",
-       "      <td>-0.134934</td>\n",
-       "      <td>2.528361</td>\n",
+       "      <td>-0.797949</td>\n",
+       "      <td>0.051009</td>\n",
+       "      <td>-1.290132</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>4</th>\n",
-       "      <td>-0.289571</td>\n",
-       "      <td>2.037927</td>\n",
-       "      <td>0.832904</td>\n",
+       "      <td>-0.019662</td>\n",
+       "      <td>0.205863</td>\n",
+       "      <td>1.269046</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>...</th>\n",
@@ -126,33 +126,33 @@
        "    </tr>\n",
        "    <tr>\n",
        "      <th>99995</th>\n",
-       "      <td>0.243452</td>\n",
-       "      <td>-1.305578</td>\n",
-       "      <td>1.034903</td>\n",
+       "      <td>1.733657</td>\n",
+       "      <td>-0.240760</td>\n",
+       "      <td>-0.523856</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>99996</th>\n",
-       "      <td>1.188316</td>\n",
-       "      <td>0.425674</td>\n",
-       "      <td>-1.380265</td>\n",
+       "      <td>0.933419</td>\n",
+       "      <td>-1.249297</td>\n",
+       "      <td>-0.200826</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>99997</th>\n",
-       "      <td>-1.674443</td>\n",
-       "      <td>1.715874</td>\n",
-       "      <td>0.104226</td>\n",
+       "      <td>-0.211517</td>\n",
+       "      <td>0.836925</td>\n",
+       "      <td>-0.111336</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>99998</th>\n",
-       "      <td>-0.466612</td>\n",
-       "      <td>-1.209274</td>\n",
-       "      <td>-0.092987</td>\n",
+       "      <td>1.461525</td>\n",
+       "      <td>0.306676</td>\n",
+       "      <td>-0.803900</td>\n",
        "    </tr>\n",
        "    <tr>\n",
        "      <th>99999</th>\n",
-       "      <td>0.294573</td>\n",
-       "      <td>-1.874502</td>\n",
-       "      <td>-1.150481</td>\n",
+       "      <td>0.532887</td>\n",
+       "      <td>-1.725969</td>\n",
+       "      <td>2.022515</td>\n",
        "    </tr>\n",
        "  </tbody>\n",
        "</table>\n",
@@ -161,17 +161,17 @@
       ],
       "text/plain": [
        "           posx      posy    energy\n",
-       "0      1.099223  2.358426  1.273596\n",
-       "1     -1.225348 -1.008053 -0.421557\n",
-       "2      0.269306 -0.709568  1.330315\n",
-       "3     -2.039608 -0.134934  2.528361\n",
-       "4     -0.289571  2.037927  0.832904\n",
+       "0     -2.352188  0.018544  0.087294\n",
+       "1      0.661999 -2.894941  0.220710\n",
+       "2     -0.924308 -1.126615 -0.637220\n",
+       "3     -0.797949  0.051009 -1.290132\n",
+       "4     -0.019662  0.205863  1.269046\n",
        "...         ...       ...       ...\n",
-       "99995  0.243452 -1.305578  1.034903\n",
-       "99996  1.188316  0.425674 -1.380265\n",
-       "99997 -1.674443  1.715874  0.104226\n",
-       "99998 -0.466612 -1.209274 -0.092987\n",
-       "99999  0.294573 -1.874502 -1.150481\n",
+       "99995  1.733657 -0.240760 -0.523856\n",
+       "99996  0.933419 -1.249297 -0.200826\n",
+       "99997 -0.211517  0.836925 -0.111336\n",
+       "99998  1.461525  0.306676 -0.803900\n",
+       "99999  0.532887 -1.725969  2.022515\n",
        "\n",
        "[100000 rows x 3 columns]"
       ]
@@ -202,10 +202,10 @@
    "id": "a7601cd7-cd51-40a9-8fc7-8b7d32ff15d0",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:22.463558Z",
-     "iopub.status.busy": "2024-07-08T17:09:22.463363Z",
-     "iopub.status.idle": "2024-07-08T17:09:22.466269Z",
-     "shell.execute_reply": "2024-07-08T17:09:22.465965Z"
+     "iopub.execute_input": "2024-07-08T21:56:12.325619Z",
+     "iopub.status.busy": "2024-07-08T21:56:12.325238Z",
+     "iopub.status.idle": "2024-07-08T21:56:12.329235Z",
+     "shell.execute_reply": "2024-07-08T21:56:12.328683Z"
     }
    },
    "outputs": [],
@@ -230,10 +230,10 @@
    "id": "758a0e95-7a03-4d44-9dae-e6bd2334554c",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:22.468375Z",
-     "iopub.status.busy": "2024-07-08T17:09:22.468183Z",
-     "iopub.status.idle": "2024-07-08T17:09:23.647705Z",
-     "shell.execute_reply": "2024-07-08T17:09:23.647247Z"
+     "iopub.execute_input": "2024-07-08T21:56:12.331599Z",
+     "iopub.status.busy": "2024-07-08T21:56:12.331394Z",
+     "iopub.status.idle": "2024-07-08T21:56:13.717885Z",
+     "shell.execute_reply": "2024-07-08T21:56:13.717243Z"
     }
    },
    "outputs": [
@@ -241,8 +241,8 @@
      "name": "stdout",
      "output_type": "stream",
      "text": [
-      "CPU times: user 1 s, sys: 49.9 ms, total: 1.05 s\n",
-      "Wall time: 1.18 s\n"
+      "CPU times: user 1.33 s, sys: 51.7 ms, total: 1.38 s\n",
+      "Wall time: 1.38 s\n"
      ]
     }
    ],
@@ -263,16 +263,16 @@
    "id": "c4f2b55f-11b3-4456-abd6-b0865749df96",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:23.650321Z",
-     "iopub.status.busy": "2024-07-08T17:09:23.650113Z",
-     "iopub.status.idle": "2024-07-08T17:09:24.086051Z",
-     "shell.execute_reply": "2024-07-08T17:09:24.085576Z"
+     "iopub.execute_input": "2024-07-08T21:56:13.720290Z",
+     "iopub.status.busy": "2024-07-08T21:56:13.720066Z",
+     "iopub.status.idle": "2024-07-08T21:56:14.354099Z",
+     "shell.execute_reply": "2024-07-08T21:56:14.353377Z"
     }
    },
    "outputs": [
     {
      "data": {
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",
       "text/plain": [
        "<Figure size 800x250 with 3 Axes>"
       ]
@@ -301,10 +301,10 @@
    "id": "ba0416b3-b4b6-4b18-8ed3-a76ab4889892",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:24.089428Z",
-     "iopub.status.busy": "2024-07-08T17:09:24.089248Z",
-     "iopub.status.idle": "2024-07-08T17:09:24.106079Z",
-     "shell.execute_reply": "2024-07-08T17:09:24.105691Z"
+     "iopub.execute_input": "2024-07-08T21:56:14.357790Z",
+     "iopub.status.busy": "2024-07-08T21:56:14.357537Z",
+     "iopub.status.idle": "2024-07-08T21:56:14.371964Z",
+     "shell.execute_reply": "2024-07-08T21:56:14.371329Z"
     }
    },
    "outputs": [
@@ -415,22 +415,22 @@
    "id": "cbed3261-187c-498d-8ee0-0c3a3c8a8c1e",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:24.107975Z",
-     "iopub.status.busy": "2024-07-08T17:09:24.107833Z",
-     "iopub.status.idle": "2024-07-08T17:09:24.792595Z",
-     "shell.execute_reply": "2024-07-08T17:09:24.791945Z"
+     "iopub.execute_input": "2024-07-08T21:56:14.374578Z",
+     "iopub.status.busy": "2024-07-08T21:56:14.374213Z",
+     "iopub.status.idle": "2024-07-08T21:56:15.166965Z",
+     "shell.execute_reply": "2024-07-08T21:56:15.166330Z"
     }
    },
    "outputs": [
     {
      "data": {
       "application/vnd.jupyter.widget-view+json": {
-       "model_id": "2ba03d9838e04889b706931effa08ed0",
+       "model_id": "63d07608761045ecb8879835cda9c412",
        "version_major": 2,
        "version_minor": 0
       },
       "text/plain": [
-       "  0%|          | 0/6 [00:00<?, ?it/s]"
+       "  0%|          | 0/17 [00:00<?, ?it/s]"
       ]
      },
      "metadata": {},
@@ -440,8 +440,8 @@
      "name": "stdout",
      "output_type": "stream",
      "text": [
-      "CPU times: user 1.78 s, sys: 1.28 s, total: 3.06 s\n",
-      "Wall time: 681 ms\n"
+      "CPU times: user 887 ms, sys: 353 ms, total: 1.24 s\n",
+      "Wall time: 789 ms\n"
      ]
     }
    ],
@@ -462,16 +462,16 @@
    "id": "99d7d136-b677-4c16-bc8f-31ba8216579c",
    "metadata": {
     "execution": {
-     "iopub.execute_input": "2024-07-08T17:09:24.795078Z",
-     "iopub.status.busy": "2024-07-08T17:09:24.794855Z",
-     "iopub.status.idle": "2024-07-08T17:09:25.236154Z",
-     "shell.execute_reply": "2024-07-08T17:09:25.235703Z"
+     "iopub.execute_input": "2024-07-08T21:56:15.169631Z",
+     "iopub.status.busy": "2024-07-08T21:56:15.169249Z",
+     "iopub.status.idle": "2024-07-08T21:56:15.846247Z",
+     "shell.execute_reply": "2024-07-08T21:56:15.845555Z"
     }
    },
    "outputs": [
     {
      "data": {
-      "image/png": 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",
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",
       "text/plain": [
        "<Figure size 800x250 with 6 Axes>"
       ]
@@ -514,12 +514,12 @@
    "name": "python",
    "nbconvert_exporter": "python",
    "pygments_lexer": "ipython3",
-   "version": "3.9.6"
+   "version": "3.9.19"
   },
   "widgets": {
    "application/vnd.jupyter.widget-state+json": {
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+     "29853c78541442e0b54ffee6104555c5": {
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@@ -571,7 +571,7 @@
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       "model_module_version": "1.5.0",
       "model_name": "HBoxModel",
@@ -586,14 +586,14 @@
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        "box_style": "",
        "children": [
-        "IPY_MODEL_816ae6c71fa34858b47615bcdb6ba552",
-        "IPY_MODEL_2e7b0cb9fa4845b28e074a12257f2da3",
-        "IPY_MODEL_8d2679906f464c4d8a62ec21995e6985"
+        "IPY_MODEL_b2e336f2a6494cb58cd09ee38e347246",
+        "IPY_MODEL_701249fcbac14731adee2c8baec82b02",
+        "IPY_MODEL_ecc1589858e04e6283e979b0867ffb6e"
        ],
-       "layout": "IPY_MODEL_355b6d5be12d480d832e865768793745"
+       "layout": "IPY_MODEL_8b8fb3e8b4ce47cda6a4a465f2a2dacc"
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-     "2e7b0cb9fa4845b28e074a12257f2da3": {
+     "701249fcbac14731adee2c8baec82b02": {
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@@ -609,15 +609,31 @@
        "bar_style": "success",
        "description": "",
        "description_tooltip": null,
-       "layout": "IPY_MODEL_a67ebd2127104917aed511743330c89d",
-       "max": 6.0,
+       "layout": "IPY_MODEL_29853c78541442e0b54ffee6104555c5",
+       "max": 17.0,
        "min": 0.0,
        "orientation": "horizontal",
-       "style": "IPY_MODEL_6aeb07ce82f845808734a570d23327f7",
-       "value": 6.0
+       "style": "IPY_MODEL_72c5bb347cff4e409da48ad68b2db1cd",
+       "value": 17.0
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-     "355b6d5be12d480d832e865768793745": {
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+      "model_module": "@jupyter-widgets/controls",
+      "model_module_version": "1.5.0",
+      "model_name": "ProgressStyleModel",
+      "state": {
+       "_model_module": "@jupyter-widgets/controls",
+       "_model_module_version": "1.5.0",
+       "_model_name": "ProgressStyleModel",
+       "_view_count": null,
+       "_view_module": "@jupyter-widgets/base",
+       "_view_module_version": "1.2.0",
+       "_view_name": "StyleView",
+       "bar_color": null,
+       "description_width": ""
+      }
+     },
+     "8b8fb3e8b4ce47cda6a4a465f2a2dacc": {
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@@ -669,23 +685,7 @@
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-     "6aeb07ce82f845808734a570d23327f7": {
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-      "model_module_version": "1.5.0",
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-      "state": {
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-       "_model_module_version": "1.5.0",
-       "_model_name": "ProgressStyleModel",
-       "_view_count": null,
-       "_view_module": "@jupyter-widgets/base",
-       "_view_module_version": "1.2.0",
-       "_view_name": "StyleView",
-       "bar_color": null,
-       "description_width": ""
-      }
-     },
-     "6f2cac48f9a640e5ad9b4c137c7f75be": {
+     "a957c3c0981d4372ac7b67de7db47ce6": {
       "model_module": "@jupyter-widgets/controls",
       "model_module_version": "1.5.0",
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@@ -700,22 +700,7 @@
        "description_width": ""
       }
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-     "7d147107f1d64db093dbe611337e5bfc": {
-      "model_module": "@jupyter-widgets/controls",
-      "model_module_version": "1.5.0",
-      "model_name": "DescriptionStyleModel",
-      "state": {
-       "_model_module": "@jupyter-widgets/controls",
-       "_model_module_version": "1.5.0",
-       "_model_name": "DescriptionStyleModel",
-       "_view_count": null,
-       "_view_module": "@jupyter-widgets/base",
-       "_view_module_version": "1.2.0",
-       "_view_name": "StyleView",
-       "description_width": ""
-      }
-     },
-     "816ae6c71fa34858b47615bcdb6ba552": {
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       "model_module": "@jupyter-widgets/controls",
       "model_module_version": "1.5.0",
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@@ -730,34 +715,13 @@
        "_view_name": "HTMLView",
        "description": "",
        "description_tooltip": null,
-       "layout": "IPY_MODEL_f39b23e20aa84238928e932d37e1864e",
+       "layout": "IPY_MODEL_e69449a036fd497ea439a7d9702fc921",
        "placeholder": "​",
-       "style": "IPY_MODEL_7d147107f1d64db093dbe611337e5bfc",
+       "style": "IPY_MODEL_defce0d3c4c74aa185bae8ed120b7003",
        "value": "100%"
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-     "8d2679906f464c4d8a62ec21995e6985": {
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-      "model_module_version": "1.5.0",
-      "model_name": "HTMLModel",
-      "state": {
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-       "_model_module": "@jupyter-widgets/controls",
-       "_model_module_version": "1.5.0",
-       "_model_name": "HTMLModel",
-       "_view_count": null,
-       "_view_module": "@jupyter-widgets/controls",
-       "_view_module_version": "1.5.0",
-       "_view_name": "HTMLView",
-       "description": "",
-       "description_tooltip": null,
-       "layout": "IPY_MODEL_1ae28a6b4ba449a19926fcc54b986682",
-       "placeholder": "​",
-       "style": "IPY_MODEL_6f2cac48f9a640e5ad9b4c137c7f75be",
-       "value": " 6/6 [00:00&lt;00:00,  3.80it/s]"
-      }
-     },
-     "a67ebd2127104917aed511743330c89d": {
+     "c517ecd234634541a0370f8ef7cb4bfe": {
       "model_module": "@jupyter-widgets/base",
       "model_module_version": "1.2.0",
       "model_name": "LayoutModel",
@@ -809,7 +773,22 @@
        "width": null
       }
      },
-     "f39b23e20aa84238928e932d37e1864e": {
+     "defce0d3c4c74aa185bae8ed120b7003": {
+      "model_module": "@jupyter-widgets/controls",
+      "model_module_version": "1.5.0",
+      "model_name": "DescriptionStyleModel",
+      "state": {
+       "_model_module": "@jupyter-widgets/controls",
+       "_model_module_version": "1.5.0",
+       "_model_name": "DescriptionStyleModel",
+       "_view_count": null,
+       "_view_module": "@jupyter-widgets/base",
+       "_view_module_version": "1.2.0",
+       "_view_name": "StyleView",
+       "description_width": ""
+      }
+     },
+     "e69449a036fd497ea439a7d9702fc921": {
       "model_module": "@jupyter-widgets/base",
       "model_module_version": "1.2.0",
       "model_name": "LayoutModel",
@@ -860,6 +839,27 @@
        "visibility": null,
        "width": null
       }
+     },
+     "ecc1589858e04e6283e979b0867ffb6e": {
+      "model_module": "@jupyter-widgets/controls",
+      "model_module_version": "1.5.0",
+      "model_name": "HTMLModel",
+      "state": {
+       "_dom_classes": [],
+       "_model_module": "@jupyter-widgets/controls",
+       "_model_module_version": "1.5.0",
+       "_model_name": "HTMLModel",
+       "_view_count": null,
+       "_view_module": "@jupyter-widgets/controls",
+       "_view_module_version": "1.5.0",
+       "_view_name": "HTMLView",
+       "description": "",
+       "description_tooltip": null,
+       "layout": "IPY_MODEL_c517ecd234634541a0370f8ef7cb4bfe",
+       "placeholder": "​",
+       "style": "IPY_MODEL_a957c3c0981d4372ac7b67de7db47ce6",
+       "value": " 17/17 [00:00&lt;00:00, 25.17it/s]"
+      }
      }
     },
     "version_major": 2,
diff --git a/sed/latest/user_guide/config.html b/sed/latest/user_guide/config.html
index ba9979b..d95dfde 100644
--- a/sed/latest/user_guide/config.html
+++ b/sed/latest/user_guide/config.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Configuration &#8212; SED 0.1.10a6 documentation</title>
+    <title>Configuration &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
@@ -524,9 +524,9 @@ <h2>Default configuration settings<a class="headerlink" href="#default-configura
 <span class="w">  </span><span class="nt">adc_binning</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">1</span>
 <span class="w">  </span><span class="c1"># list of columns to apply jitter to.</span>
 <span class="w">  </span><span class="nt">jitter_cols</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="s">&quot;@x_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@y_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@tof_column&quot;</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># Jitter amplitude or list of jitter amplitudes. Should equal half the digital step size of each jitter_column</span>
+<span class="w">  </span><span class="c1"># Jitter amplitude or list of jitter amplitudes. Should equal half the digitial step size of each jitter_column</span>
 <span class="w">  </span><span class="nt">jitter_amps</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">0.5</span>
-<span class="w">  </span><span class="c1"># Time stepping in seconds of the successive events in the timed dataframe</span>
+<span class="w">  </span><span class="c1"># Time stepping in seconds of the succesive events in the timed dataframe</span>
 <span class="w">  </span><span class="nt">timed_dataframe_unit_time</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">0.001</span>
 
 <span class="nt">energy</span><span class="p">:</span>
@@ -544,7 +544,7 @@ <h2>Default configuration settings<a class="headerlink" href="#default-configura
 <span class="w">  </span><span class="nt">fastdtw_radius</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">2</span>
 <span class="w">  </span><span class="c1"># Window around a peak to make sure that no other peaks are present</span>
 <span class="w">  </span><span class="nt">peak_window</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">7</span>
-<span class="w">  </span><span class="c1"># Method to use for energy calibration</span>
+<span class="w">  </span><span class="c1"># Mehtod to use for energy calibration</span>
 <span class="w">  </span><span class="nt">calibration_method</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;lmfit&quot;</span>
 <span class="w">  </span><span class="c1"># Energy scale to use for energy calibration</span>
 <span class="w">  </span><span class="nt">energy_scale</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;kinetic&quot;</span>
@@ -553,11 +553,11 @@ <h2>Default configuration settings<a class="headerlink" href="#default-configura
 <span class="w">  </span><span class="nt">tof_fermi</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">132250</span>
 <span class="w">  </span><span class="c1"># TOF range to visualize for the correction tool around tof_fermi</span>
 <span class="w">  </span><span class="nt">tof_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-600</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">1000</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># x-integration range for the correction tool around the center pixel</span>
+<span class="w">  </span><span class="c1"># x-intergration range for the correction tool around the center pixel</span>
 <span class="w">  </span><span class="nt">x_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-20</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">20</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># y-integration range for the correction tool around the center pixel</span>
+<span class="w">  </span><span class="c1"># y-intergration range for the correction tool around the center pixel</span>
 <span class="w">  </span><span class="nt">y_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-20</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">20</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># High intensity cutoff for the visualization tool</span>
+<span class="w">  </span><span class="c1"># High intensity cutoff for the visulaization tool</span>
 <span class="w">  </span><span class="nt">color_clip</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">300</span>
 
 
@@ -592,7 +592,7 @@ <h2>Default configuration settings<a class="headerlink" href="#default-configura
 <span class="nt">binning</span><span class="p">:</span>
 <span class="w">  </span><span class="c1"># Histogram computation mode to use.</span>
 <span class="w">  </span><span class="nt">hist_mode</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;numba&quot;</span>
-<span class="w">  </span><span class="c1"># Mode for histogram recombination to use</span>
+<span class="w">  </span><span class="c1"># Mode for hostogram recombination to use</span>
 <span class="w">  </span><span class="nt">mode</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">fast</span>
 <span class="w">  </span><span class="c1"># Whether to display a progress bar</span>
 <span class="w">  </span><span class="nt">pbar</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">True</span>
@@ -604,7 +604,7 @@ <h2>Default configuration settings<a class="headerlink" href="#default-configura
 <span class="nt">histogram</span><span class="p">:</span>
 <span class="w">  </span><span class="c1"># number of bins used for histogram visualization</span>
 <span class="w">  </span><span class="nt">bins</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">80</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">80</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">80</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># default axes to use for histogram visualization.</span>
+<span class="w">  </span><span class="c1"># default axes to use for histgram visualization.</span>
 <span class="w">  </span><span class="c1"># Axes names starting with &quot;@&quot; refer to keys in the &quot;dataframe&quot; section</span>
 <span class="w">  </span><span class="nt">axes</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="s">&quot;@x_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@y_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@tof_column&quot;</span><span class="p p-Indicator">]</span>
 <span class="w">  </span><span class="c1"># default ranges to use for histogram visualization (in unbinned detector coordinates)</span>
@@ -623,7 +623,7 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">  </span><span class="nt">copy_tool_source</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;/path/to/data/&quot;</span>
 <span class="w">  </span><span class="c1"># path to the root or the local data storage</span>
 <span class="w">  </span><span class="nt">copy_tool_dest</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;/path/to/localDataStore/&quot;</span>
-<span class="w">  </span><span class="c1"># optional keywords for the copy tool:</span>
+<span class="w">  </span><span class="c1"># optional keyworkds for the copy tool:</span>
 <span class="w">  </span><span class="nt">copy_tool_kwds</span><span class="p">:</span>
 <span class="w">    </span><span class="c1"># number of parallel copy jobs</span>
 <span class="w">    </span><span class="nt">ntasks</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">20</span>
@@ -641,11 +641,11 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">    </span><span class="nt">Stream_4</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;ADC&quot;</span>
 <span class="w">  </span><span class="c1"># dataframe column name for the time stamp column</span>
 <span class="w">  </span><span class="nt">time_stamp_alias</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;timeStamps&quot;</span>
-<span class="w">  </span><span class="c1"># hdf5 group name containing eventIDs occurring at every millisecond (used to calculate timestamps)</span>
+<span class="w">  </span><span class="c1"># hdf5 group name containing eventIDs occuring at every millisecond (used to calculate timestamps)</span>
 <span class="w">  </span><span class="nt">ms_markers_group</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;msMarkers&quot;</span>
 <span class="w">  </span><span class="c1"># hdf5 attribute containing the timestamp of the first event in a file</span>
 <span class="w">  </span><span class="nt">first_event_time_stamp_key</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;FirstEventTimeStamp&quot;</span>
-<span class="w">  </span><span class="c1"># Time stepping in seconds of the successive events in the timed dataframe</span>
+<span class="w">  </span><span class="c1"># Time stepping in seconds of the succesive events in the timed dataframe</span>
 <span class="w">  </span><span class="nt">timed_dataframe_unit_time</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">0.001</span>
 <span class="w">  </span><span class="c1"># list of columns to apply jitter to</span>
 <span class="w">  </span><span class="nt">jitter_cols</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="s">&quot;X&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;Y&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;t&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;ADC&quot;</span><span class="p p-Indicator">]</span>
@@ -712,7 +712,7 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">  </span><span class="nt">fastdtw_radius</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">2</span>
 <span class="w">  </span><span class="c1"># Window around a peak to make sure that no other peaks are present</span>
 <span class="w">  </span><span class="nt">peak_window</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">7</span>
-<span class="w">  </span><span class="c1"># Method to use for energy calibration</span>
+<span class="w">  </span><span class="c1"># Mehtod to use for energy calibration</span>
 <span class="w">  </span><span class="nt">calibration_method</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;lmfit&quot;</span>
 <span class="w">  </span><span class="c1"># Energy scale to use for energy calibration</span>
 <span class="w">  </span><span class="nt">energy_scale</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;kinetic&quot;</span>
@@ -721,11 +721,11 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">  </span><span class="nt">tof_fermi</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">132250</span>
 <span class="w">  </span><span class="c1"># TOF range to visualize for the correction tool around tof_fermi</span>
 <span class="w">  </span><span class="nt">tof_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-600</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">1000</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># x-integration range for the correction tool around the center pixel</span>
+<span class="w">  </span><span class="c1"># x-intergration range for the correction tool around the center pixel</span>
 <span class="w">  </span><span class="nt">x_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-20</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">20</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># y-integration range for the correction tool around the center pixel</span>
+<span class="w">  </span><span class="c1"># y-intergration range for the correction tool around the center pixel</span>
 <span class="w">  </span><span class="nt">y_width</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">-20</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">20</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># High intensity cutoff for the visualization tool</span>
+<span class="w">  </span><span class="c1"># High intensity cutoff for the visulaization tool</span>
 <span class="w">  </span><span class="nt">color_clip</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">300</span>
 <span class="w">  </span><span class="nt">correction</span><span class="p">:</span>
 <span class="w">    </span><span class="c1"># Correction type</span>
@@ -771,9 +771,9 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">  </span><span class="nt">sigma_radius</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">1</span>
 <span class="w">  </span><span class="c1"># default momentum calibration</span>
 <span class="w">  </span><span class="nt">calibration</span><span class="p">:</span>
-<span class="w">    </span><span class="c1"># x momentum scaling factor</span>
+<span class="w">    </span><span class="c1"># x momentum scaleing factor</span>
 <span class="w">    </span><span class="nt">kx_scale</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">0.010729535670610963</span>
-<span class="w">    </span><span class="c1"># y momentum scaling factor</span>
+<span class="w">    </span><span class="c1"># y momentum scaleing factor</span>
 <span class="w">    </span><span class="nt">ky_scale</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">0.010729535670610963</span>
 <span class="w">    </span><span class="c1"># x BZ center pixel</span>
 <span class="w">    </span><span class="nt">x_center</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">256.0</span>
@@ -811,7 +811,7 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="nt">binning</span><span class="p">:</span>
 <span class="w">  </span><span class="c1"># Histogram computation mode to use.</span>
 <span class="w">  </span><span class="nt">hist_mode</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;numba&quot;</span>
-<span class="w">  </span><span class="c1"># Mode for histogram recombination to use</span>
+<span class="w">  </span><span class="c1"># Mode for hostogram recombination to use</span>
 <span class="w">  </span><span class="nt">mode</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;fast&quot;</span>
 <span class="w">  </span><span class="c1"># Whether to display a progress bar</span>
 <span class="w">  </span><span class="nt">pbar</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">True</span>
@@ -825,7 +825,7 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="nt">histogram</span><span class="p">:</span>
 <span class="w">  </span><span class="c1"># number of bins used for histogram visualization</span>
 <span class="w">  </span><span class="nt">bins</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="nv">80</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">80</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">80</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="nv">80</span><span class="p p-Indicator">]</span>
-<span class="w">  </span><span class="c1"># default axes to use for histogram visualization.</span>
+<span class="w">  </span><span class="c1"># default axes to use for histgram visualization.</span>
 <span class="w">  </span><span class="c1"># Axes names starting with &quot;@&quot; refer to keys in the &quot;dataframe&quot; section</span>
 <span class="w">  </span><span class="nt">axes</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="s">&quot;@x_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@y_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@tof_column&quot;</span><span class="p p-Indicator">,</span><span class="w"> </span><span class="s">&quot;@adc_column&quot;</span><span class="p p-Indicator">]</span>
 <span class="w">  </span><span class="c1"># default ranges to use for histogram visualization (in unbinned detector coordinates)</span>
@@ -923,7 +923,7 @@ <h2>Example configuration file for mpes (METIS momentum microscope at FHI-Berlin
 <span class="w">  </span><span class="nt">reader</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;mpes&quot;</span>
 <span class="w">  </span><span class="c1"># NeXus application definition to use for saving</span>
 <span class="w">  </span><span class="nt">definition</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;NXmpes&quot;</span>
-<span class="w">  </span><span class="c1"># List containing additional input files to be handed to the pynxtools converter tool,</span>
+<span class="w">  </span><span class="c1"># List conatining additional input files to be handed to the pynxtools converter tool,</span>
 <span class="w">  </span><span class="c1"># e.g. containing a configuration file, and additional metadata.</span>
 <span class="w">  </span><span class="nt">input_files</span><span class="p">:</span><span class="w"> </span><span class="p p-Indicator">[</span><span class="s">&quot;../sed/config/NXmpes_config.json&quot;</span><span class="p p-Indicator">]</span>
 </pre></div>
@@ -938,7 +938,7 @@ <h2>Example configuration file for flash (HEXTOF momentum microscope at FLASH, D
 <span class="w">  </span><span class="nt">loader</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">flash</span>
 <span class="w">  </span><span class="c1"># the beamline where experiment took place</span>
 <span class="w">  </span><span class="nt">beamline</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">pg2</span>
-<span class="w">  </span><span class="c1"># the ID number of the beamtime</span>
+<span class="w">  </span><span class="c1"># the ID number of the beamtimme</span>
 <span class="w">  </span><span class="nt">beamtime_id</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">11013410</span>
 <span class="w">  </span><span class="c1"># the year of the beamtime</span>
 <span class="w">  </span><span class="nt">year</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">2023</span>
@@ -1022,7 +1022,7 @@ <h2>Example configuration file for flash (HEXTOF momentum microscope at FLASH, D
 <span class="w">  </span><span class="c1"># channelAlias:</span>
 <span class="w">  </span><span class="c1">#   format: per_pulse/per_electron/per_train</span>
 <span class="w">  </span><span class="c1">#   group_name: the hdf5 group path</span>
-<span class="w">  </span><span class="c1">#   slice: if the group contains multidimensional data, where to slice</span>
+<span class="w">  </span><span class="c1">#   slice: if the group contains multidim data, where to slice</span>
 
 <span class="w">  </span><span class="nt">channels</span><span class="p">:</span>
 <span class="w">    </span><span class="c1"># The timestamp</span>
@@ -1056,8 +1056,8 @@ <h2>Example configuration file for flash (HEXTOF momentum microscope at FLASH, D
 <span class="w">      </span><span class="nt">group_name</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;/uncategorised/FLASH.EXP/HEXTOF.DAQ/DLD1/&quot;</span>
 <span class="w">      </span><span class="nt">slice</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">3</span>
 
-<span class="w">    </span><span class="c1"># The auxiliary channel has a special structure where the group further contains</span>
-<span class="w">    </span><span class="c1"># a multidimensional structure so further aliases are defined below</span>
+<span class="w">    </span><span class="c1"># The auxillary channel has a special structure where the group further contains</span>
+<span class="w">    </span><span class="c1"># a multidim structure so further aliases are defined below</span>
 <span class="w">    </span><span class="nt">dldAux</span><span class="p">:</span>
 <span class="w">      </span><span class="nt">format</span><span class="p">:</span><span class="w"> </span><span class="l l-Scalar l-Scalar-Plain">per_pulse</span>
 <span class="w">      </span><span class="nt">group_name</span><span class="p">:</span><span class="w"> </span><span class="s">&quot;/uncategorised/FLASH.EXP/HEXTOF.DAQ/DLD1/&quot;</span>
diff --git a/sed/latest/user_guide/index.html b/sed/latest/user_guide/index.html
index a9f2e36..f129665 100644
--- a/sed/latest/user_guide/index.html
+++ b/sed/latest/user_guide/index.html
@@ -9,7 +9,7 @@
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 <meta content="Documentation for beginner users. " lang="en" name="description" xml:lang="en" />
 
-    <title>User Guide &#8212; SED 0.1.10a6 documentation</title>
+    <title>User Guide &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -36,7 +36,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -47,7 +47,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -127,7 +127,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/user_guide/installation.html b/sed/latest/user_guide/installation.html
index 4fbfa8f..78a6d64 100644
--- a/sed/latest/user_guide/installation.html
+++ b/sed/latest/user_guide/installation.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Installation &#8212; SED 0.1.10a6 documentation</title>
+    <title>Installation &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>
     
diff --git a/sed/latest/workflows/index.html b/sed/latest/workflows/index.html
index c84b89d..39914d0 100644
--- a/sed/latest/workflows/index.html
+++ b/sed/latest/workflows/index.html
@@ -8,7 +8,7 @@
     <meta charset="utf-8" />
     <meta name="viewport" content="width=device-width, initial-scale=1.0" /><meta name="viewport" content="width=device-width, initial-scale=1" />
 
-    <title>Workflows &#8212; SED 0.1.10a6 documentation</title>
+    <title>Workflows &#8212; SED 0.1.10a5 documentation</title>
   
   
   
@@ -35,7 +35,7 @@
 <link rel="preload" as="script" href="../_static/scripts/pydata-sphinx-theme.js?digest=3ee479438cf8b5e0d341" />
   <script src="../_static/vendor/fontawesome/6.5.2/js/all.min.js?digest=3ee479438cf8b5e0d341"></script>
 
-    <script src="../_static/documentation_options.js?v=7e069785"></script>
+    <script src="../_static/documentation_options.js?v=49fe1def"></script>
     <script src="../_static/doctools.js?v=9a2dae69"></script>
     <script src="../_static/sphinx_highlight.js?v=dc90522c"></script>
     <script crossorigin="anonymous" integrity="sha256-Ae2Vz/4ePdIu6ZyI/5ZGsYnb+m0JlOmKPjt6XZ9JJkA=" src="https://cdnjs.cloudflare.com/ajax/libs/require.js/2.3.4/require.min.js"></script>
@@ -44,7 +44,7 @@
     <script>
         DOCUMENTATION_OPTIONS.theme_version = '0.15.3';
         DOCUMENTATION_OPTIONS.theme_switcher_json_url = 'https://raw.githubusercontent.com/OpenCOMPES/docs/main/sed/switcher.json';
-        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a6';
+        DOCUMENTATION_OPTIONS.theme_switcher_version_match = '0.1.10a5';
         DOCUMENTATION_OPTIONS.show_version_warning_banner = true;
         </script>
     <link rel="index" title="Index" href="../genindex.html" />
@@ -124,7 +124,7 @@
   
   
   
-    <p class="title logo__title">SED 0.1.10a6 documentation</p>
+    <p class="title logo__title">SED 0.1.10a5 documentation</p>
   
 </a></div>