<?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>Replication Data for: Boron nitride on SiC(0001)</dcterms:title><dcterms:identifier>https://doi.org/10.26165/JUELICH-DATA/EIH8FB</dcterms:identifier><dcterms:creator>François C. Bocquet</dcterms:creator><dcterms:creator>Volker Blum</dcterms:creator><dcterms:creator>You-Ron Lin</dcterms:creator><dcterms:creator>Markus Franke</dcterms:creator><dcterms:creator>Shayan Parhizkar</dcterms:creator><dcterms:creator>Serguei Soubatch</dcterms:creator><dcterms:creator>Tien-Lin Lee</dcterms:creator><dcterms:creator>Miriam Raths</dcterms:creator><dcterms:creator>Victor Wen-zhe Yu</dcterms:creator><dcterms:creator>F. Stefan Tautz</dcterms:creator><dcterms:creator>Christian Kumpf</dcterms:creator><dcterms:publisher>Jülich DATA</dcterms:publisher><dcterms:issued>2022-02-24</dcterms:issued><dcterms:modified>2025-01-16T14:00:47Z</dcterms:modified><dcterms:description>&lt;p>&lt;strong>Fig. 3:&lt;/strong>&lt;br />correlation temperature-position:&lt;br />position in mm: 21/22/23/24/25/26/27&lt;br />temperatures in &amp;deg;C: 1100/1125/1150/1175/1200/1225/1250&lt;/p>&#xd;
&lt;p>&lt;strong>Fig. 4:&lt;/strong>&lt;br />Nova: 1100&amp;deg;C&lt;br />Lami: 1150&amp;deg;C&lt;/p>&#xd;
&lt;p>*.csv: Line-scan on the B&lt;em>x&lt;/em>N&lt;em>y-R&lt;/em>0&amp;deg; peak&lt;/p>&#xd;
&lt;p>*.asc: Line-scan on the SiC peak&lt;/p>&#xd;
&lt;p>&lt;strong>Fig. 5:&lt;/strong>&lt;br />Lars: 1150&amp;deg;C&lt;br />Jane: 1250&amp;deg;C&lt;br />.txt: Single core-level&lt;br />Fit_result_refl.dat: Best fit of the reflectivity&lt;br />Exp_refl_norm_centered.dat: Experimental reflecticity curve&lt;br />Fit_ey_*[n].dat: Best fit of the yield curve for component $n$&lt;br />Exp_ey_*[n].dat: Experimental yield curve for component $n$&lt;/p>&#xd;
&lt;p>&lt;strong>Fig. 6:&lt;/strong>&lt;br />Lars: 1150&amp;deg;C&lt;br />Jane_Argang_Gr-side_*: 1250&amp;deg;C&lt;br />Jane_Argand_LowTempside_*: 1100&amp;deg;C&lt;/p>&#xd;
&lt;p>&lt;strong>Fig. 11:&lt;/strong>&lt;br />*.png: As prepared&lt;br />*.tif: After air expose&lt;/p>&#xd;
&lt;p>For the simulations data see: &lt;a href="https://dx.doi.org/10.17172/NOMAD/2022.02.24-1">https://dx.doi.org/10.17172/NOMAD/2022.02.24-1&lt;/a>&lt;/p></dcterms:description><dcterms:subject>Physics</dcterms:subject><dcterms:isReferencedBy>arXiv, 2203.00985, https://arxiv.org/abs/2203.00985</dcterms:isReferencedBy><dcterms:isReferencedBy>Phys. Rev. Materials 6, 064002 (2022), doi, 10.1103/PhysRevMaterials.6.064002, https://doi.org/10.1103/PhysRevMaterials.6.064002</dcterms:isReferencedBy><dcterms:contributor>Bocquet, François C.</dcterms:contributor><dcterms:dateSubmitted>2022-02-23</dcterms:dateSubmitted><dcterms:license>CCBY</dcterms:license></metadata>