Valley-polarized quantum anomalous Hall phases and tunable topological phase transitions in half-hydrogenated Bi honeycomb monolayers

Cheng Cheng Liu; Jin Jian Zhou; Yugui Yao

doi:10.1103/PhysRevB.91.165430

Valley-polarized quantum anomalous Hall phases and tunable topological phase transitions in half-hydrogenated Bi honeycomb monolayers

Cheng Cheng Liu, Jin Jian Zhou, Yugui Yao

物理学院

CAS - Institute of Physics

科研成果: 期刊稿件 › 文章 › 同行评审

48 引用（Scopus）

摘要

Based on first-principles calculations, we find novel valley-polarized quantum anomalous Hall (VP-QAH) phases with a large gap - 0.19 eV at an appropriate buckled angle and tunable topological phase transitions driven by the spontaneous magnetization within a half-hydrogenated Bi honeycomb monolayer. Depending on the magnetization orientation, four different phases can emerge, i.e., two VP-QAH phases, ferromagnetic insulating, and metallic states. When the magnetization is reversed from the +z to the -z directions, accompanied with a sign change in the Chern number (from -1 to +1), the chiral edge state is moved from valley K to K′. Our findings provide a platform for designing dissipationless electronics and valleytronics in a more robust manner through the tuning of the magnetization orientation.

源语言	英语
文章编号	165430
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	91
期	16
DOI	https://doi.org/10.1103/PhysRevB.91.165430
出版状态	已出版 - 27 4月 2015

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abstract = "Based on first-principles calculations, we find novel valley-polarized quantum anomalous Hall (VP-QAH) phases with a large gap - 0.19 eV at an appropriate buckled angle and tunable topological phase transitions driven by the spontaneous magnetization within a half-hydrogenated Bi honeycomb monolayer. Depending on the magnetization orientation, four different phases can emerge, i.e., two VP-QAH phases, ferromagnetic insulating, and metallic states. When the magnetization is reversed from the +z to the -z directions, accompanied with a sign change in the Chern number (from -1 to +1), the chiral edge state is moved from valley K to K′. Our findings provide a platform for designing dissipationless electronics and valleytronics in a more robust manner through the tuning of the magnetization orientation.",

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N2 - Based on first-principles calculations, we find novel valley-polarized quantum anomalous Hall (VP-QAH) phases with a large gap - 0.19 eV at an appropriate buckled angle and tunable topological phase transitions driven by the spontaneous magnetization within a half-hydrogenated Bi honeycomb monolayer. Depending on the magnetization orientation, four different phases can emerge, i.e., two VP-QAH phases, ferromagnetic insulating, and metallic states. When the magnetization is reversed from the +z to the -z directions, accompanied with a sign change in the Chern number (from -1 to +1), the chiral edge state is moved from valley K to K′. Our findings provide a platform for designing dissipationless electronics and valleytronics in a more robust manner through the tuning of the magnetization orientation.

AB - Based on first-principles calculations, we find novel valley-polarized quantum anomalous Hall (VP-QAH) phases with a large gap - 0.19 eV at an appropriate buckled angle and tunable topological phase transitions driven by the spontaneous magnetization within a half-hydrogenated Bi honeycomb monolayer. Depending on the magnetization orientation, four different phases can emerge, i.e., two VP-QAH phases, ferromagnetic insulating, and metallic states. When the magnetization is reversed from the +z to the -z directions, accompanied with a sign change in the Chern number (from -1 to +1), the chiral edge state is moved from valley K to K′. Our findings provide a platform for designing dissipationless electronics and valleytronics in a more robust manner through the tuning of the magnetization orientation.

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Valley-polarized quantum anomalous Hall phases and tunable topological phase transitions in half-hydrogenated Bi honeycomb monolayers

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