Absence of Ferromagnetism in VSe2 Caused by Its Charge Density Wave Phase

Adolfo O. Fumega; M. Gobbi; P. Dreher; W. Wan; C. Gonzaĺez-Orellana; M. Peña-Díaz; C. Rogero; J. Herrero-Martín; P. Gargiani; M. Ilyn; M. M. Ugeda; Victor Pardo; S. Blanco-Canosa

doi:10.1021/acs.jpcc.9b08868

Absence of Ferromagnetism in VSe₂ Caused by Its Charge Density Wave Phase

Adolfo O. Fumega^*
, M. Gobbi
, P. Dreher
, W. Wan
, C. Gonzaĺez-Orellana
, M. Peña-Díaz
, C. Rogero
, J. Herrero-Martín
, P. Gargiani
, M. Ilyn
, M. M. Ugeda
, Victor Pardo^*
, S. Blanco-Canosa^*

^*Autor correspondiente de este trabajo

University of Santiago de Compostela
Polytechnic University of Valencia
ALBA Synchrotron Light Source
Donostia International Physics Center

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

100 Citas (Scopus)

Resumen

How magnetism emerges in low-dimensional materials such as transition metal dichalcogenides at the monolayer limit is still an open question. Herein, we present a comprehensive study of the magnetic properties of single-crystal and monolayer VSe₂, both experimentally and ab initio. Magnetometry, X-ray magnetic circular dichrosim (XMCD), and ab initio calculations demonstrate that the charge density wave in bulk stoichiometric VSe_2.0 causes a structural distortion with a strong reduction in the density of states at the Fermi level, prompting the system toward a nonmagnetic state but on the verge of a ferromagnetic instability. In the monolayer limit, the structural rearrangement induces a Peierls distortion with the opening of an energy gap at the Fermi level and the absence of magnetic order.

Idioma original	Inglés
Páginas (desde-hasta)	27802-27810
Número de páginas	9
Publicación	Journal of Physical Chemistry C
Volumen	123
N.º	45
DOI	https://doi.org/10.1021/acs.jpcc.9b08868
Estado	Publicada - 21 nov 2019
Publicado de forma externa	Sí

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title = "Absence of Ferromagnetism in VSe2 Caused by Its Charge Density Wave Phase",

abstract = "How magnetism emerges in low-dimensional materials such as transition metal dichalcogenides at the monolayer limit is still an open question. Herein, we present a comprehensive study of the magnetic properties of single-crystal and monolayer VSe2, both experimentally and ab initio. Magnetometry, X-ray magnetic circular dichrosim (XMCD), and ab initio calculations demonstrate that the charge density wave in bulk stoichiometric VSe2.0 causes a structural distortion with a strong reduction in the density of states at the Fermi level, prompting the system toward a nonmagnetic state but on the verge of a ferromagnetic instability. In the monolayer limit, the structural rearrangement induces a Peierls distortion with the opening of an energy gap at the Fermi level and the absence of magnetic order.",

author = "Fumega, \{Adolfo O.\} and M. Gobbi and P. Dreher and W. Wan and C. Gonza{\'l}ez-Orellana and M. Pe{\~n}a-D{\'i}az and C. Rogero and J. Herrero-Mart{\'i}n and P. Gargiani and M. Ilyn and Ugeda, \{M. M.\} and Victor Pardo and S. Blanco-Canosa",

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AU - Fumega, Adolfo O.

AU - Gobbi, M.

AU - Dreher, P.

AU - Wan, W.

AU - Gonzaĺez-Orellana, C.

AU - Peña-Díaz, M.

AU - Rogero, C.

AU - Herrero-Martín, J.

AU - Gargiani, P.

AU - Ilyn, M.

AU - Ugeda, M. M.

AU - Pardo, Victor

AU - Blanco-Canosa, S.

PY - 2019/11/21

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N2 - How magnetism emerges in low-dimensional materials such as transition metal dichalcogenides at the monolayer limit is still an open question. Herein, we present a comprehensive study of the magnetic properties of single-crystal and monolayer VSe2, both experimentally and ab initio. Magnetometry, X-ray magnetic circular dichrosim (XMCD), and ab initio calculations demonstrate that the charge density wave in bulk stoichiometric VSe2.0 causes a structural distortion with a strong reduction in the density of states at the Fermi level, prompting the system toward a nonmagnetic state but on the verge of a ferromagnetic instability. In the monolayer limit, the structural rearrangement induces a Peierls distortion with the opening of an energy gap at the Fermi level and the absence of magnetic order.

AB - How magnetism emerges in low-dimensional materials such as transition metal dichalcogenides at the monolayer limit is still an open question. Herein, we present a comprehensive study of the magnetic properties of single-crystal and monolayer VSe2, both experimentally and ab initio. Magnetometry, X-ray magnetic circular dichrosim (XMCD), and ab initio calculations demonstrate that the charge density wave in bulk stoichiometric VSe2.0 causes a structural distortion with a strong reduction in the density of states at the Fermi level, prompting the system toward a nonmagnetic state but on the verge of a ferromagnetic instability. In the monolayer limit, the structural rearrangement induces a Peierls distortion with the opening of an energy gap at the Fermi level and the absence of magnetic order.

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