凝聚态物理
自旋霍尔效应
物理
极化(电化学)
霍尔效应
空格(标点符号)
自旋(空气动力学)
自旋极化
量子力学
磁场
化学
计算机科学
电子
热力学
操作系统
物理化学
作者
Rui Chen,Zi-Ming Wang,Hai-Peng Sun,Bin Zhou,Dong-Hui Xu
标识
DOI:10.48550/arxiv.2501.14217
摘要
Altermagnets represent a recently discovered class of collinear magnets, characterized by antiparallel neighboring magnetic moments and alternating-sign spin polarization in momentum-space($k$-space). However, experimental methods for probing the $k$-space spin polarization in altermagnets remain limited. In this work, we propose an approach to address this challenge by interfacing an altermagnet with the surface of a topological insulator. The massless Dirac fermions on the topological insulator surface acquire a mass due to the time-reversal symmetry breaking. The local $k$-space magnetic moment at the Dirac point directly determines both the sign and magnitude of this Dirac mass, resulting in an anomalous Hall effect. By measuring the Hall conductance, we can extract the local $k$-space magnetic moment. Moreover, we can map the global magnetic moment distribution by tuning the Dirac point position using an in-plane magnetic field, thereby revealing the $k$-space spin density of the altermagnet. This work establishes the Dirac fermion on the topological insulator surface as a sensitive probe for unveiling spin characters of altermagnets and those of other unconventional antiferromagnets.
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