单层锰铋2SexTe4-x 中的工程量子反常霍尔效应

arXiv - PHYS - Materials Science Pub Date : 2024-09-12 DOI:arxiv-2409.07740

Jiale Chen, Jun Hu

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引用次数: 0

摘要

近年来，为下一代自旋电子器件探索本征磁性拓扑绝缘体（TIs）仍是一项挑战。在这里，我们介绍了对单层（ML）Janus MnBi2TexSe4-x 的电子、磁性和拓扑特性的理论研究，这些单层（ML）Janus MnBi2TexSe4-x 是由两种三磁半导体 ML MnBi2Se4 和 MnBi2Te4 衍生而来的。我们的能带结构分析表明，在八种 Janus 结构中，有两种表现出了由自旋轨道耦合引起的能带反转。这些结构被证实具有非零点切尔诺数，表明了它们的拓扑性质。此外，拓扑状态在中等双轴应变下也很稳定。有趣的是，施加压缩应变会使它们的切尔数达到 2，并增强它们在高温下的磁稳定性。我们的发现为在 ML MnBi2Te4 家族中设计磁性 TI 状态提供了一种有效的策略。

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Engineering Quantum Anomalous Hall Effect in Monolayer Janus MnBi2SexTe4-x

Exploring intrinsic magnetic topological insulators (TIs) for next-generation spintronic devices is still challenging in recent years. Here, we present a theoretical investigation on the electronic, magnetic and topological properties of monolayer (ML) Janus MnBi2TexSe4-x, derived from two trivial magnetic semiconductors ML MnBi2Se4 and MnBi2Te4. Our band structure analysis reveals that two out of the eight Janus structures exhibit band inversion induced by spin-orbit coupling. These structures are confirmed to have nonzero integer Chern numbers, indicating their topological nature. Moreover, the topological state is robust under moderate biaxial strains. Interestingly, applying compressive strain results in a high Chern number of 2 and enhances their magnetic stability at elevated temperatures. Our findings offer an effective strategy to engineer magnetic TI states within the ML MnBi2Te4 family.

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arXiv - PHYS - Materials Science

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