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Publication date: Jun 24, 2024
A comprehensive study of the electronic and structural phase transition from 1T` to Td in the bulk Weyl semimetal Mo1-xWxTe2 at different doping concentrations has been carried out using time-of-flight momentum microscopy (including circular and linear dichroism), X-ray photoelectron spectroscopy, X-ray photoelectron diffraction, X-ray diffraction (XRD), angle-resolved Raman spectroscopy, transport measurements (including longitudinal elastoresistance), density functional theory (DFT) and Kikuchi pattern calculations. High-resolution, angle-resolved photoemission spectroscopy at 20 K reveals surface electronic states, which are indicative for topological Fermi arcs. Their dispersion agrees with the position of Weyl points predicted by DFT calculations based on the precise crystal structure of our samples obtained from XRD measurements. Raman spectroscopy confirms the inversion symmetry breaking for the Td-phase, which is a necessary condition for the emergence of topological states. Transport measurements show that increasing the doping concentration from 2 to 9 % leads to an increase in the temperature of the phase transition from 1T` to Td from 230 K to 270 K. Magnetoresistance and longitudinal elastoresistance show significantly increased values in the Td-phase. This dataset contains the raw data discussed in the manuscript with the same title.
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File name | Size | Description |
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README.txt
MD5md5:25043f0448b109a31797c5dd98d655ab
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748 Bytes | Description of the dataset |
export_MoWTe2.aiida
MD5md5:5bd4a8f159602c3847cb3b11497c38c7
Open this AiiDA archive on renkulab.io (https://renkulab.io/)
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216.5 MiB | AiiDA export file for the DFT data of this work |
2024.95 (version v1) [This version] | Jun 24, 2024 | DOI10.24435/materialscloud:ks-0h |