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Autores principales: Luo, Hai-Lan, Rodriguez, Josue, Dutta, Debasis, Huber, Maximilian, Jiang, Haoyue, Moreschini, Luca, Xu, Catherine, Fedorov, Alexei, Jozwiak, Chris, Bostwick, Aaron, Chang, Guoqing, Analytis, James G., Lee, Dung-Hai, Lanzara, Alessandra
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.11796
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author Luo, Hai-Lan
Rodriguez, Josue
Dutta, Debasis
Huber, Maximilian
Jiang, Haoyue
Moreschini, Luca
Xu, Catherine
Fedorov, Alexei
Jozwiak, Chris
Bostwick, Aaron
Chang, Guoqing
Analytis, James G.
Lee, Dung-Hai
Lanzara, Alessandra
author_facet Luo, Hai-Lan
Rodriguez, Josue
Dutta, Debasis
Huber, Maximilian
Jiang, Haoyue
Moreschini, Luca
Xu, Catherine
Fedorov, Alexei
Jozwiak, Chris
Bostwick, Aaron
Chang, Guoqing
Analytis, James G.
Lee, Dung-Hai
Lanzara, Alessandra
contents Magnetically intercalated transition metal dichalcogenides are emerging as a rich platform for exploring exotic quantum states in van der Waals magnets. Among them, CoxTaS2 has attracted intense interest following the recent discovery of a distinctive 3Q magnetic ground state and a pronounced topological Hall effect below a critical doping of x=1/3, both intimately tied to cobalt concentration. To date, direct signatures of this enigmatic 3Q magnetic order in the electronic structure remain elusive. Here we report a comprehensive doping dependent angle resolved photoemission spectroscopy study that unveils these long-sought fingerprints. Our data reveal an unexpected "inverse Mexican hat" dispersion along the K-M-K direction, accompanied by two van Hove singularities. These features are consistent with theoretical predictions for a 3Q magnetic order near three-quarters band filling on a cobalt triangular lattice. These results provide evidence of 3Q magnetic order in the electronic structure, establishing TMD van der Waals magnets as tunable materials to explore the interplay between magnetism and topology.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Discovery of Van Hove Singularities: Electronic Fingerprints of 3Q Magnetic Order in a van der Waals Quantum Magnet
Luo, Hai-Lan
Rodriguez, Josue
Dutta, Debasis
Huber, Maximilian
Jiang, Haoyue
Moreschini, Luca
Xu, Catherine
Fedorov, Alexei
Jozwiak, Chris
Bostwick, Aaron
Chang, Guoqing
Analytis, James G.
Lee, Dung-Hai
Lanzara, Alessandra
Materials Science
Magnetically intercalated transition metal dichalcogenides are emerging as a rich platform for exploring exotic quantum states in van der Waals magnets. Among them, CoxTaS2 has attracted intense interest following the recent discovery of a distinctive 3Q magnetic ground state and a pronounced topological Hall effect below a critical doping of x=1/3, both intimately tied to cobalt concentration. To date, direct signatures of this enigmatic 3Q magnetic order in the electronic structure remain elusive. Here we report a comprehensive doping dependent angle resolved photoemission spectroscopy study that unveils these long-sought fingerprints. Our data reveal an unexpected "inverse Mexican hat" dispersion along the K-M-K direction, accompanied by two van Hove singularities. These features are consistent with theoretical predictions for a 3Q magnetic order near three-quarters band filling on a cobalt triangular lattice. These results provide evidence of 3Q magnetic order in the electronic structure, establishing TMD van der Waals magnets as tunable materials to explore the interplay between magnetism and topology.
title Discovery of Van Hove Singularities: Electronic Fingerprints of 3Q Magnetic Order in a van der Waals Quantum Magnet
topic Materials Science
url https://arxiv.org/abs/2601.11796