Magnetization-direction tunable nodal-line and Weyl phases

Zeying Zhang; Qiang Gao; Cheng Cheng Liu; Hongbin Zhang; Yugui Yao

doi:10.1103/PhysRevB.98.121103

Magnetization-direction tunable nodal-line and Weyl phases

Zeying Zhang^*, Qiang Gao, Cheng Cheng Liu, Hongbin Zhang, Yugui Yao

^*此作品的通讯作者

物理学院

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19 引用（Scopus）

摘要

We propose a spinless symmetry-based three-band tight-binding model with the coexistence of nodal-line and Weyl points, after considering spin-orbital coupling and different magnetization directions. It is confirmed that the number of Weyl points and nodal lines can be tuned by the magnetization direction. The combination of time-reversal symmetry and mirror reflection symmetry plays a crucial role in protecting the degeneracy of nodal lines. Moreover, we put forward a different class of materials C4CrX3 (X=Ge and Si) which host such a nontrivial semimetallic phase.

源语言	英语
文章编号	121103
期刊	Physical Review B
卷	98
期	12
DOI	https://doi.org/10.1103/PhysRevB.98.121103
出版状态	已出版 - 7 9月 2018

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AU - Zhang, Zeying

AU - Gao, Qiang

AU - Liu, Cheng Cheng

AU - Zhang, Hongbin

AU - Yao, Yugui

PY - 2018/9/7

Y1 - 2018/9/7

N2 - We propose a spinless symmetry-based three-band tight-binding model with the coexistence of nodal-line and Weyl points, after considering spin-orbital coupling and different magnetization directions. It is confirmed that the number of Weyl points and nodal lines can be tuned by the magnetization direction. The combination of time-reversal symmetry and mirror reflection symmetry plays a crucial role in protecting the degeneracy of nodal lines. Moreover, we put forward a different class of materials C4CrX3 (X=Ge and Si) which host such a nontrivial semimetallic phase.

AB - We propose a spinless symmetry-based three-band tight-binding model with the coexistence of nodal-line and Weyl points, after considering spin-orbital coupling and different magnetization directions. It is confirmed that the number of Weyl points and nodal lines can be tuned by the magnetization direction. The combination of time-reversal symmetry and mirror reflection symmetry plays a crucial role in protecting the degeneracy of nodal lines. Moreover, we put forward a different class of materials C4CrX3 (X=Ge and Si) which host such a nontrivial semimetallic phase.

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Magnetization-direction tunable nodal-line and Weyl phases

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