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Main Authors: Weber, Andrew P., Robredo, Iñigo, Rüssmann, Philipp, Ilyn, Maxim, Magrez, Arnaud, Bugnon, Philippe, Xu, Nan, Strocov, Vladimir, Dil, J. Hugo, Ortega, J. Enrique, Ibañez-Azpiroz, Julen
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.05197
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author Weber, Andrew P.
Robredo, Iñigo
Rüssmann, Philipp
Ilyn, Maxim
Magrez, Arnaud
Bugnon, Philippe
Xu, Nan
Strocov, Vladimir
Dil, J. Hugo
Ortega, J. Enrique
Ibañez-Azpiroz, Julen
author_facet Weber, Andrew P.
Robredo, Iñigo
Rüssmann, Philipp
Ilyn, Maxim
Magrez, Arnaud
Bugnon, Philippe
Xu, Nan
Strocov, Vladimir
Dil, J. Hugo
Ortega, J. Enrique
Ibañez-Azpiroz, Julen
contents Ab initio calculations and angle-resolved photoemission experiments show that the bulk and surface electronic structure of Weyl semimetal candidate MoTe$_2$ changes significantly by tuning the chemical potential by less than 0.4 eV. Calculations show that several Lifshitz transitions can occur among multiple electron and hole Fermi pockets of differing orbital character. Experiments show that 18% Nb-Mo substitution reduces the occupation of bulk and (001) surface bands, effectively producing a chemical potential shift of $\approx 0.3$ eV. Orbital character and dimensionality of the bulk bands is examined by soft X-ray angle resolved photoemission with control of the excitation light polarization. The band filling at the surface is shown to increase upon deposition of alkali atoms. The results indicate that multiple regimes of electronic properties can be easily accessed in this versatile, layered material.
format Preprint
id arxiv_https___arxiv_org_abs_2601_05197
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Control of the MoTe$_2$ Fermi Surface by Nb Doping
Weber, Andrew P.
Robredo, Iñigo
Rüssmann, Philipp
Ilyn, Maxim
Magrez, Arnaud
Bugnon, Philippe
Xu, Nan
Strocov, Vladimir
Dil, J. Hugo
Ortega, J. Enrique
Ibañez-Azpiroz, Julen
Materials Science
Ab initio calculations and angle-resolved photoemission experiments show that the bulk and surface electronic structure of Weyl semimetal candidate MoTe$_2$ changes significantly by tuning the chemical potential by less than 0.4 eV. Calculations show that several Lifshitz transitions can occur among multiple electron and hole Fermi pockets of differing orbital character. Experiments show that 18% Nb-Mo substitution reduces the occupation of bulk and (001) surface bands, effectively producing a chemical potential shift of $\approx 0.3$ eV. Orbital character and dimensionality of the bulk bands is examined by soft X-ray angle resolved photoemission with control of the excitation light polarization. The band filling at the surface is shown to increase upon deposition of alkali atoms. The results indicate that multiple regimes of electronic properties can be easily accessed in this versatile, layered material.
title Control of the MoTe$_2$ Fermi Surface by Nb Doping
topic Materials Science
url https://arxiv.org/abs/2601.05197