Intrinsic valley polarization of magnetic VSe2 monolayers

Jian Liu; Wen Jie Hou; Cai Cheng; Hui Xia Fu; Jia Tao Sun; Sheng Meng

doi:10.1088/1361-648X/aa6e6e

Intrinsic valley polarization of magnetic VSe₂ monolayers

Jian Liu, Wen Jie Hou, Cai Cheng, Hui Xia Fu, Jia Tao Sun, Sheng Meng

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103 引用（Scopus）

摘要

Intrinsic valley polarization can be obtained in VSe₂ monolayers with broken inversion symmetry and time reversal symmetry. First-principles investigations reveal that the magnitude of the valley splitting in magnetic VSe₂ induced by spin-orbit coupling reaches as high as 78.2 meV and can be linearly tuned by biaxial strain. Besides conventional polarized light, hole doping or illumination with light of proper frequency can offer effective routes to realize valley polarization. Moreover, spin-orbit coupling in monolayer VSe₂ breaks not only the valley degeneracy but also the three-fold rotational symmetry in band structure. The intrinsic and tunable valley splitting and the breaking of optical isotropy bring additional benefits to valleytronic and optoelectronic applications.

源语言	英语
文章编号	255501
期刊	Journal of Physics Condensed Matter
卷	29
期	25
DOI	https://doi.org/10.1088/1361-648X/aa6e6e
出版状态	已出版 - 18 5月 2017
已对外发布	是

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title = "Intrinsic valley polarization of magnetic VSe2 monolayers",

abstract = "Intrinsic valley polarization can be obtained in VSe2 monolayers with broken inversion symmetry and time reversal symmetry. First-principles investigations reveal that the magnitude of the valley splitting in magnetic VSe2 induced by spin-orbit coupling reaches as high as 78.2 meV and can be linearly tuned by biaxial strain. Besides conventional polarized light, hole doping or illumination with light of proper frequency can offer effective routes to realize valley polarization. Moreover, spin-orbit coupling in monolayer VSe2 breaks not only the valley degeneracy but also the three-fold rotational symmetry in band structure. The intrinsic and tunable valley splitting and the breaking of optical isotropy bring additional benefits to valleytronic and optoelectronic applications.",

keywords = "intrinsic valley splitting, optical anisotropy, spin-orbit coupling, valley polarization",

author = "Jian Liu and Hou, {Wen Jie} and Cai Cheng and Fu, {Hui Xia} and Sun, {Jia Tao} and Sheng Meng",

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AU - Liu, Jian

AU - Hou, Wen Jie

AU - Cheng, Cai

AU - Fu, Hui Xia

AU - Sun, Jia Tao

AU - Meng, Sheng

PY - 2017/5/18

Y1 - 2017/5/18

N2 - Intrinsic valley polarization can be obtained in VSe2 monolayers with broken inversion symmetry and time reversal symmetry. First-principles investigations reveal that the magnitude of the valley splitting in magnetic VSe2 induced by spin-orbit coupling reaches as high as 78.2 meV and can be linearly tuned by biaxial strain. Besides conventional polarized light, hole doping or illumination with light of proper frequency can offer effective routes to realize valley polarization. Moreover, spin-orbit coupling in monolayer VSe2 breaks not only the valley degeneracy but also the three-fold rotational symmetry in band structure. The intrinsic and tunable valley splitting and the breaking of optical isotropy bring additional benefits to valleytronic and optoelectronic applications.

AB - Intrinsic valley polarization can be obtained in VSe2 monolayers with broken inversion symmetry and time reversal symmetry. First-principles investigations reveal that the magnitude of the valley splitting in magnetic VSe2 induced by spin-orbit coupling reaches as high as 78.2 meV and can be linearly tuned by biaxial strain. Besides conventional polarized light, hole doping or illumination with light of proper frequency can offer effective routes to realize valley polarization. Moreover, spin-orbit coupling in monolayer VSe2 breaks not only the valley degeneracy but also the three-fold rotational symmetry in band structure. The intrinsic and tunable valley splitting and the breaking of optical isotropy bring additional benefits to valleytronic and optoelectronic applications.

KW - intrinsic valley splitting

KW - optical anisotropy

KW - spin-orbit coupling

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Intrinsic valley polarization of magnetic VSe2 monolayers

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Intrinsic valley polarization of magnetic VSe₂ monolayers