Mechanism of Even-Odd Layer-Dependent Anomalous Hall Effect in MnBi<sub>2</sub>Te<sub>4</sub>
ORAL
Abstract
Magnetic topological insulator is an ideal platform to explore the interaction between magnetism and topological orders. As an intrinsic magnetic topological insulator, MnBi2Te4 has gained a lot of attention, but its properties are yet to be fully understood. Due to its antiferromagnetic nature below Néel temperature, MnBi2Te4 thin film is a quantum anomalous Hall (QAH) insulator at odd layers, while an axion insulator at even layers. Recent experiments have shown that the anomalous Hall measurements in MnBi2Te4 films exhibit unique even-odd layer-dependent patterns, which could be linked to its distinct topological states at even and odd layers. Here we theoretically studied the underlying mechanism of this intriguing behavior, and discussed the interplay between the axion electrodynamics and the antiferromagnetism for the even-layer systems. These results may provide a deeper insight of the newly-discovered material MnBi2Te4 and the interaction between topology and magnetic orders.
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Presenters
Ruobing Mei
Pennsylvania State University
Authors
Ruobing Mei
Pennsylvania State University
Yifan Zhao
Pennsylvania State University, The Pennsylvania State University
Lingjie Zhou
Pennsylvania State University, The Pennsylvania State University
Fei Wang
Pennsylvania State University
Guang Wang
Pennsylvania State University
Tiancheng Song
University of Washington, Princeton University
Dmitry Ovchinnikov
University of Washington
Hemian Yi
Pennsylvania State University
Ke Wang
Pennsylvania State University, University Park, PA, Pennsylvania State University
Moses H Chan
Pennsylvania State University
Xiaodong Xu
University of Washington
Cui-Zu Chang
Pennsylvania State University
Chaoxing Liu
Pennsylvania State University, Department of physics, Pennsylvania State University
