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Manipulation of the Topological Ferromagnetic State in a Weyl Semimetal by Spin–Orbit Torque

Lizhu Ren, Liang Liu, Xiaohe Song, Tieyang Zhao, Xiangjun Xing, Yuan Ping Feng, Jingsheng Chen, K. L. Teo

2023Nano Letters13 citationsDOI

Abstract

Magnetic Weyl semimetals (MWSMs) exhibit unconventional transport phenomena, such as large anomalous Hall (and Nernst) effects, which are absent in spatial inversion asymmetry WSMs. Compared with its nonmagnetic counterpart, the magnetic state of a MWSM provides an alternative way for the modulation of topology. Spin–orbit torque (SOT), as an effective means of electrically controlling the magnetic states of ferromagnets, may be used to manipulate the topological magnetic states of MWSMs. Here we confirm the MWSM state of high-quality Co 2 MnGa film by systematically investigating the transport measurements and demonstrating that the magnetization and topology of Co 2 MnGa can be electrically manipulated. The electrical and magnetic optical measurements further reveal that the current-induced SOT switches the topological magnetic state in a 180-degree manner by applying positive/negative current pulses and in a 90-degree manner by alternately applying two orthogonal current pulses. This work opens up more opportunities for spintronic applications based on topological materials.

Topics & Concepts

Weyl semimetalFerromagnetismCondensed matter physicsOrbit (dynamics)SemimetalPhysicsSpin (aerodynamics)Topology (electrical circuits)Quantum mechanicsMathematicsBand gapEngineeringThermodynamicsCombinatoricsAerospace engineeringTopological Materials and PhenomenaMagnetic properties of thin filmsGraphene research and applications
Manipulation of the Topological Ferromagnetic State in a Weyl Semimetal by Spin–Orbit Torque | Litcius