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Insight into the quantum anomalous Hall states in two-dimensional kagome Cr 3 Se 4 and Fe 3 S 4 monolayers.

Huijie LianXiaokang XuYing HanJie LiWenqi ZhouXiaojing YaoJinlian LuXiuyun Zhang
Published in: Nanoscale (2023)
To realize the quantum anomalous Hall (QAH) effect in two-dimensional (2D) intrinsic magnetic materials, which combines insulating bulk states and metallic edge channel states, is still challenging in experiment. Here, based on first-principles calculations, we predicted two stable kagome-latticed QAH insulators: Cr 3 Se 4 and Fe 3 S 4 monolayers, with the Chern number C = 1. It is found that both structures exhibit a large magnetic anisotropy energy and sizable band gaps, and a topological phase transition from C = -1 to C = 1 occurs when the magnetization orientation changes from the z -axis to the - z -axis. Remarkably, the non-trivial topological properties are robust against biaxial strains of up to ±6%. Furthermore, a variable high Chern number of C = 2 or C = 3 can be observed by stacking two or three layers of the QAH monolayer with an MoS 2 insulator. Our results signify that such layered kagome materials can be promising platforms for exploring novel QAH physics.
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