单层CrP₂S₆的室温量子反常霍尔效应

Pei Zhao, Yandong Ma, Hao Wang, Baibiao Huang, Ying Dai
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引用次数: 0

摘要

量子反常霍尔效应(QAH)是一种令人着迷的量子现象,其特征是在体态和边界的手性边缘态中定义了一个非零的陈恩数。到目前为止,只有一种具有小块带隙的磁掺杂拓扑绝缘体被实验证实具有QAH效应。在这里,通过第一性原理计算,我们提出了一种单层(SL) CrP₂S₆的新型QAH绝缘子。具有非零陈氏数(C = - 1)和手性边态的SL CrP₂S₆的非平凡拓扑具有53mev的非平凡带隙。同时,利用蒙特卡罗模拟,估计其铁磁序的居里温度Tc为350 K,高于室温,与之前报道的大多数二维铁磁半导体相当。因此,我们的研究结果为在室温下实现QAH效应提供了一个可行的平台。
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Room-Temperature Quantum Anomalous Hall Effect in Single-Layer CrP₂S₆
The quantum anomalous Hall (QAH) effect is a fascinating quantum phenomenon characterized by a nonzero Chern number defined in the bulk and chiral edge states in the boundary. Up to now, only one magnetically doped topological insulator, suffering from a small bulk band gap, is confirmed to host the QAH effect experimentally. Here, through first-principles calculations, we propose a novel QAH insulator in single-layer (SL) CrP₂S₆. The nontrivial topology in SL CrP₂S₆, identified with the nonzero Chern number (C = −1) and chiral edge states, harbors a nontrivial band gap of 53 meV. Meanwhile, using Monte Carlo simulations, the Curie temperature Tc for its ferromagnetic order is estimated to be 350 K, which is above room temperature and comparable with most of the previously reported two-dimensional ferromagnetic semiconductors. Our findings thus present a feasible platform for achieving the QAH effect at room temperature.
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