| Literature DB >> 31838853 |
Shuai Zhang1, Rui Wang1,2, Xuepeng Wang1, Boyuan Wei1, Bo Chen1, Huaiqiang Wang1, Gang Shi3, Feng Wang1, Bin Jia1, Yiping Ouyang1, Faji Xie1, Fucong Fei1, Minhao Zhang1, Xuefeng Wang4, Di Wu1, Xiangang Wan1, Fengqi Song1, Haijun Zhang1, Baigeng Wang1.
Abstract
Magnetic topological insulator, a platform for realizing quantum anomalous Hall effect, axion state, and other novel quantum transport phenomena, has attracted a lot of interest. Recently, it is proposed that MnBi2Te4 is an intrinsic magnetic topological insulator, which may overcome the disadvantages in the magnetic doped topological insulator, such as disorder. Here we report on the gate-reserved anomalous Hall effect (AHE) in the MnBi2Te4 thin film. By tuning the Fermi level using the top/bottom gate, the AHE loop gradually decreases to zero and the sign is reversed. The positive AHE exhibits distinct coercive fields compared with the negative AHE. It reaches a maximum inside the gap of the Dirac cone, and its amplitude exhibits a linear scaling with the longitudinal conductance. The positive AHE is attributed to the competition of the intrinsic Berry curvature and the extrinsic skew scattering. Its gate-controlled switching contributes a scheme for the topological spin field-effect transistors.Entities:
Keywords: Berry curvature; Magnetic topological insulator; anomalous Hall effect; sign reversal; skew scattering
Year: 2019 PMID: 31838853 DOI: 10.1021/acs.nanolett.9b04555
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189