Recent progress on electron- and magnon-mediated torques

doi:10.1088/1674-1056/add909

Abstract The growing demand for artificial intelligence and complex computing has underscored the urgent need for advanced data storage technologies. Spin-orbit torque (SOT) has emerged as a leading candidate for high-speed, high-density magnetic random-access memory due to its ultrafast switching speed and low power consumption. This review systematically explores the generation and switching mechanisms of electron-mediated torques (including both conventional SOTs and orbital torques) and magnon-mediated torques. We discuss key materials that enable these effects: heavy metals, topological insulators, low-crystal-symmetry materials, non-collinear antiferromagnets, and altermagnets for conventional SOTs; 3d, 4d, and 5d transition metals for orbital torques; and antiferromagnetic insulator NiO- and multiferroic BiFeO$_{3}$-based sandwich structures for magnon torques. We emphasize that although key components of SOT devices have been demonstrated, numerous promising materials and critical questions regarding their underlying mechanisms remain to be explored. Therefore, this field represents a dynamic and rapidly evolving frontier in spintronics, offering significant potential for advancing next-generation information storage and computational technologies.

Keywords: spin-orbit torque orbital torque magnon torque altermagnet

Received: 31 March 2025
Revised: 07 May 2025
Accepted manuscript online: 15 May 2025

PACS:	75.70.Tj	(Spin-orbit effects)
	75.60.Jk	(Magnetization reversal mechanisms)
	75.76.+j	(Spin transport effects)
	72.25.-b	(Spin polarized transport)

Fund: This work was supported by the National Natural Science Foundation of China (Grant Nos. U24A6002, 12174237 (X. X.), 52471253 (F. W.), 12404091 (J. L.), 52171183 (Z. Q.)). X. X. acknowledges the support from the National Key Research and Development Program of China (Grant No. 2022YFB3505301). F. W. acknowledges the support from the Fund Program for the Scientific Activities of Selected Returned Overseas Professionals in Shanxi Province (Grant No. 20240019) and Central Government’s Special Fund for Local Science and Technology Development (Grant No. YDZJSX2024D058). J. L. acknowledges the support from the Basic Research Plan of Shanxi Province (Grant No. 202403021212016). Z. Y. acknowledges the support from the Fundamental Research Program of Shanxi Province (Grant No. 202403021222252) and the Higher Education Science and Technology Innovation Plan Project of Shanxi (Grant No. 2024L146).

Corresponding Authors: Fei Wang, Xiaohong Xu
E-mail: feiwang.imr@gmail.com;xuxh@sxnu.edu.cn

Cite this article:

Jia-Min Lai(来嘉敏), Bingyue Bian(边冰玥), Zhonghai Yu(于忠海), Kaiwei Guo(郭凯卫), Yajing Zhang(张雅静), Pengnan Zhao(赵鹏楠), Xiaoqian Zhang(张霄倩), Chunyang Tang(汤春阳), Jiasen Cao(曹家森), Zhiyong Quan(全志勇), Fei Wang(王飞), and Xiaohong Xu(许小红) Recent progress on electron- and magnon-mediated torques 2025 Chin. Phys. B 34 107501

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