Pressure-induced switching between topological phases in magnetic van der Waals heterostructures

被引:0
|
作者
Li, Jie [1 ]
Yang, Peiru [1 ]
Ren, Wei [2 ]
Wu, Ruqian [3 ]
机构
[1] Shanghai Univ, Sch Mat Sci & Engn, Shanghai 200444, Peoples R China
[2] Shanghai Univ, Int Ctr Quantum & Mol Struct, Dept Phys, Shanghai 200444, Peoples R China
[3] Univ Calif Irvine, Dept Phys & Astron, Irvine, CA 92697 USA
来源
PHYSICAL REVIEW B | 2024年 / 109卷 / 03期
基金
中国国家自然科学基金;
关键词
Despite the significant developments in quantum anomalous Hall (QAH) insulators study in recent years; it remains an outstanding challenge to tune between different topological phases in the same material. In this work; an ultrathin van der Waals (vdW) heterostructure based on MnBi2Se4 and Bi2Se3 was proposed by using model Hamiltonian and density-functional theory simulations; which was proved to be an excellent tunable QAH platform. Its band gap closes and reopens as hydrostatic pressure increases; with a topological phase transition around the critical pressure of 2.5 GPa. Further analyses reveal the main reason is the enhancement of interlayer interactions and the crystal-field splitting as the interlayer distance decreases. Our work provides clear physical insights and suggests a strategy for experimental realization and control of the QAH effect in real materials. © 2024 American Physical Society;
D O I
10.1103/PhysRevB.109.035419
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Despite the significant developments in quantum anomalous Hall (QAH) insulators study in recent years, it remains an outstanding challenge to tune between different topological phases in the same material. In this work, an ultrathin van der Waals (vdW) heterostructure based on MnBi2Se4 and Bi2Se3 was proposed by using model Hamiltonian and density -functional theory simulations, which was proved to be an excellent tunable QAH platform. Its band gap closes and reopens as hydrostatic pressure increases, with a topological phase transition around the critical pressure of 2.5 GPa. Further analyses reveal the main reason is the enhancement of interlayer interactions and the crystal -field splitting as the interlayer distance decreases. Our work provides clear physical insights and suggests a strategy for experimental realization and control of the QAH effect in real materials.
引用
收藏
页数:7
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