Graphene-like Dirac states and quantum spin Hall insulators in square-octagonal MX2 (M= Mo, W; X= S, Se, Te) isomers

Yan Sun; Claudia Felser; Binghai Yan

doi:10.1103/PhysRevB.92.165421

Graphene-like Dirac states and quantum spin Hall insulators in square-octagonal MX2 (M= Mo, W; X= S, Se, Te) isomers

Yan Sun, Claudia Felser, Binghai Yan

Research output: Contribution to journal › Article › peer-review

Abstract

We studied the square-octagonal lattice of the transition metal dichalcogenide MX2 (with M=Mo, W; X=S, Se, and Te), as an isomer of the normal hexagonal compound of MX2. By band-structure calculations, we observe the graphene-like Dirac band structure in a rectangular lattice of MX2 with nonsymmorphic space group symmetry. Two bands with van Hove singularity points cross each at the Fermi energy, leading to two Dirac cones that locate at opposite momenta. Spin-orbit coupling can open a gap at these Dirac points, inside which gapless topological edge states exists as the quantum spin Hall (QSH) effect, the 2D topological insulator.

Original language	English
Article number	165421
Journal	Physical Review B
Volume	92
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.92.165421
State	Published - 16 Oct 2015
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.92.165421

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title = "Graphene-like Dirac states and quantum spin Hall insulators in square-octagonal MX2 (M= Mo, W; X= S, Se, Te) isomers",

abstract = "We studied the square-octagonal lattice of the transition metal dichalcogenide MX2 (with M=Mo, W; X=S, Se, and Te), as an isomer of the normal hexagonal compound of MX2. By band-structure calculations, we observe the graphene-like Dirac band structure in a rectangular lattice of MX2 with nonsymmorphic space group symmetry. Two bands with van Hove singularity points cross each at the Fermi energy, leading to two Dirac cones that locate at opposite momenta. Spin-orbit coupling can open a gap at these Dirac points, inside which gapless topological edge states exists as the quantum spin Hall (QSH) effect, the 2D topological insulator.",

author = "Yan Sun and Claudia Felser and Binghai Yan",

note = "Publisher Copyright: {\textcopyright} 2015 American Physical Society.",

year = "2015",

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PY - 2015/10/16

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N2 - We studied the square-octagonal lattice of the transition metal dichalcogenide MX2 (with M=Mo, W; X=S, Se, and Te), as an isomer of the normal hexagonal compound of MX2. By band-structure calculations, we observe the graphene-like Dirac band structure in a rectangular lattice of MX2 with nonsymmorphic space group symmetry. Two bands with van Hove singularity points cross each at the Fermi energy, leading to two Dirac cones that locate at opposite momenta. Spin-orbit coupling can open a gap at these Dirac points, inside which gapless topological edge states exists as the quantum spin Hall (QSH) effect, the 2D topological insulator.

AB - We studied the square-octagonal lattice of the transition metal dichalcogenide MX2 (with M=Mo, W; X=S, Se, and Te), as an isomer of the normal hexagonal compound of MX2. By band-structure calculations, we observe the graphene-like Dirac band structure in a rectangular lattice of MX2 with nonsymmorphic space group symmetry. Two bands with van Hove singularity points cross each at the Fermi energy, leading to two Dirac cones that locate at opposite momenta. Spin-orbit coupling can open a gap at these Dirac points, inside which gapless topological edge states exists as the quantum spin Hall (QSH) effect, the 2D topological insulator.

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M3 - مقالة

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ER -

Graphene-like Dirac states and quantum spin Hall insulators in square-octagonal MX2 (M= Mo, W; X= S, Se, Te) isomers

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All Science Journal Classification (ASJC) codes

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