Litcius/Paper detail

Electric control of a canted-antiferromagnetic Chern insulator

Jiaqi Cai, Dmitry Ovchinnikov, Zaiyao Fei, Minhao He, Tiancheng Song, Zhong Lin, Chong Wang, David Cobden, Jiun‐Haw Chu, Yong‐Tao Cui, Cui‐Zu Chang, Di Xiao, Jiaqiang Yan, Xiaodong Xu

2022Nature Communications67 citationsDOIOpen Access PDF

Abstract

Abstract The interplay between band topology and magnetism can give rise to exotic states of matter. For example, magnetically doped topological insulators can realize a Chern insulator that exhibits quantized Hall resistance at zero magnetic field. While prior works have focused on ferromagnetic systems, little is known about band topology and its manipulation in antiferromagnets. Here, we report that MnBi 2 Te 4 is a rare platform for realizing a canted-antiferromagnetic (cAFM) Chern insulator with electrical control. We show that the Chern insulator state with Chern number C = 1 appears as the AFM to canted-AFM phase transition happens. The Chern insulator state is further confirmed by observing the unusual transition of the C = 1 state in the cAFM phase to the C = 2 orbital quantum Hall states in the magnetic field induced ferromagnetic phase. Near the cAFM-AFM phase boundary, we show that the dissipationless chiral edge transport can be toggled on and off by applying an electric field alone. We attribute this switching effect to the electrical field tuning of the exchange gap alignment between the top and bottom surfaces. Our work paves the way for future studies on topological cAFM spintronics and facilitates the development of proof-of-concept Chern insulator devices.

Topics & Concepts

AntiferromagnetismInsulator (electricity)Condensed matter physicsPhysicsOptoelectronicsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsAtomic and Subatomic Physics Research
Electric control of a canted-antiferromagnetic Chern insulator | Litcius