<?xml version='1.0' encoding='UTF-8'?><metadata xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:dcterms="http://purl.org/dc/terms/" xmlns="http://dublincore.org/documents/dcmi-terms/"><dcterms:title>Data used in: Momentum-selective orbital hybridisation</dcterms:title><dcterms:identifier>https://doi.org/10.26165/JUELICH-DATA/6UG0DS</dcterms:identifier><dcterms:creator>Yang, Xiaosheng</dcterms:creator><dcterms:creator>Jugovac, Matteo</dcterms:creator><dcterms:creator>Zamborlini, Giovanni</dcterms:creator><dcterms:creator>Feyer, Vitaliy</dcterms:creator><dcterms:creator>Koller, Georg</dcterms:creator><dcterms:creator>Puschnig, Peter</dcterms:creator><dcterms:creator>Soubatch, Serguei</dcterms:creator><dcterms:creator>Ramsey, Michael G.</dcterms:creator><dcterms:creator>Tautz, F. Stefan</dcterms:creator><dcterms:publisher>Jülich DATA</dcterms:publisher><dcterms:issued>2022-09-02</dcterms:issued><dcterms:modified>2025-02-06T10:12:41Z</dcterms:modified><dcterms:description>We present here the raw data used to produce the figures in the publication &lt;br>&#xd;
Yang &lt;i>et al.&lt;/i>, Nature Communications 13, 5148 (2022) (DOI: 10.1038/s41467-022-32643-z). &#xd;
&lt;br>&lt;br>&lt;br>&#xd;
Unless explicitly stated, all metadata necessary to analyze the data is included in the files (or filenames) themselves and are self-explanatory. The raw data are placed in a separated folder for each figure or figure panel.&#xd;
&lt;br>&lt;br>&#xd;
Real space orbital representations are provided as standard Gaussian *.cube  files (see: paulbourke.net/dataformats/cube).&#xd;
&lt;br>&lt;br>&#xd;
Photoemission data are provided as Hierarchical Data Format *.hdf5 files.&#xd;
&lt;br>&#xd;
Standard variable names in the hdf5 files are:&lt;br>&#xd;
data_*map : 2D image&lt;br>&#xd;
k*_array: array containing the dimension of the momentum map array in Angstrom.&lt;br>&#xd;
BE_array: array containing the binding energies of the band map array in electronvolt.&lt;br>&#xd;
If the same files are used in two different figures, they appear only once in this dataset.&lt;br>&#xd;
&lt;br>&lt;br>&#xd;
--------&lt;br>&#xd;
&lt;b>Fig.1a:&lt;/b>&#xd;
5P_MO_102_LUMO.cube&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.1a, Fig.2b, Fig.3b,&lt;/b> and &lt;b>Fig.4b&lt;/b>:&#xd;
kmap_5P_LUMO_0603015_BE0.22.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.1a&lt;/b> and &lt;b>Fig.2c&lt;/b>:&#xd;
kmap_5P_LUMO_KE30.1_alongX.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.1c&lt;/b>:&#xd;
5P_Cu110_0603014.csv, 6P_Cu110_0603001.csv, and clean_Cu110_0530001.csv&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.2a&lt;/b> and &lt;b>Supplementary Fig.7b&lt;/b>:&#xd;
kmap_Cu110_082_BE0.23.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.3a&lt;/b> and &lt;b>Supplementary Fig.6c&lt;/b>:&#xd;
kmap_Cu110_0530001_BE0.23.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.4a&lt;/b> and &lt;b>Supplementary Fig.8a&lt;/b>:&#xd;
5P_Cu110_25lay_a3.61_BE0.22.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.4c&lt;/b> and &lt;b>Supplementary Fig.8d&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_P1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.4d&lt;/b> and &lt;b>Supplementary Fig.8e&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_P001.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Fig.4f&lt;/b>:&#xd;
5P_Cu110_2530_planeaveraged.csv&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.1&lt;/b>:&#xd;
5P_Cu(110)_15eV_vertical_2016-06-03-15-30-21.390.tif,&#xd;
6P_Cu(110)_14eV_horizontal_2016-05-30-13-48-56.781.tif, and &#xd;
Cu(110)_101eV_vertical_2016-06-02-08-42-22.156.tif&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.2a&lt;/b>:&#xd;
kmap_Cu110_082_BE0.13.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.2b&lt;/b> and &lt;b>Supplementary Fig.3b&lt;/b>:&#xd;
kmap_6P_LUMO_0603002_BE0.12.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.2c&lt;/b>:&#xd;
kmap_6P_LUMO_KE30.2_alongX.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.3a&lt;/b>:&#xd;
kmap_Cu110_0530001_BE0.13eV.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.4a&lt;/b>:&#xd;
bandmap_5P_Cu110_0603014_Y1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.4b,e,h&lt;/b>:&#xd;
kmap_5P_Cu110_0603014_BE0.12.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.4c,f,i&lt;/b>:&#xd;
kmap_5P_Cu110_0603014_BE0.22.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.4d&lt;/b>:&#xd;
bandmap_5P_Cu110_0603014_GammaPrime1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.4g&lt;/b>:&#xd;
bandmap_5P_Cu110_0603014_Gamma1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.5a&lt;/b>:&#xd;
bandmap_6P_Cu110_0603001_Y1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.5b,e,h&lt;/b>:&#xd;
kmap_6P_Cu110_0603001_BE0.11.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.5c,f,i&lt;/b>:&#xd;
kmap_6P_Cu110_0603001_BE0.21.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.5d&lt;/b>:&#xd;
bandmap_6P_Cu110_0603001_GammaPrime1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.5g&lt;/b>:&#xd;
bandmap_6P_Cu110_0603001_Gamma1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.6a&lt;/b>:&#xd;
bandmap_Cu110_0530001_Y1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.6b&lt;/b>:&#xd;
kmap_Cu110_0530001_BE0.10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.7a&lt;/b>:&#xd;
kmap_Cu110_25lay_a3.61_BE0.22.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.7c&lt;/b>:&#xd;
bandmap_Cu110_25lay_a3.61_Y1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.7d&lt;/b>:&#xd;
bandmap_Cu110_25lay_a3.61_Y001.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.7f&lt;/b>:&#xd;
Cu110_2515_planeaveraged.csv&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.8b&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_PPrime1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.8c&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_PPrime001.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.8f&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_Y1-10.hdf5&lt;br>&lt;br>&#xd;
&#xd;
&lt;b>Supplementary Fig.8g&lt;/b>:&#xd;
bandmap_5P_Cu110_25lay_a3.61_Y001.hdf5&lt;br>&lt;br></dcterms:description><dcterms:subject>Physics</dcterms:subject><dcterms:subject>photoemission orbital tomography, photoemission electron microscopy</dcterms:subject><dcterms:isReferencedBy>Xiaosheng Yang, Matteo Jugovac, Giovanni Zamborlini, Vitaliy Feyer, Georg Koller, Peter Puschnig, Serguei Soubatch, Michael G. Ramsey, F. Stefan Tautz&#xd;
&#xd;
Momentum-selective orbital hybridisation&#xd;
Nat Commun 13, 5148 (2022). &#xd;
https://doi.org/10.1038/s41467-022-32643-z&#xd;
https://www.nature.com/articles/s41467-022-32643-z, doi, 10.1038/s41467-022-32643-z, https://www.nature.com/articles/s41467-022-32643-z</dcterms:isReferencedBy><dcterms:contributor>Subach, Sergey</dcterms:contributor><dcterms:dateSubmitted>2022-07-25</dcterms:dateSubmitted><dcterms:license>CCBY</dcterms:license></metadata>