有效自旋轨道转矩的拓扑绝缘体

2022 IEEE 33rd Magnetic Recording Conference (TMRC) Pub Date : 2022-08-01 DOI:10.1109/TMRC56419.2022.9918577

Yabin Fan

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引用次数: 0

摘要

近十年来，基于拓扑绝缘体的自旋电子学研究取得了长足的进展。由于其强大的自旋-轨道耦合(SOC)，特别是表面上的自旋动量锁定狄拉克态，ti有望成为自旋电子应用的非常有前途的材料，从超低功耗存储/逻辑器件到新的超快计算技术。本文综述了ti基自旋电子学的研究进展。特别地，我将回顾在各种ti基磁系统中通过巨大自旋轨道转矩(SOT)进行磁化切换的实验。本文将讨论这些结构中的SOT效率和开关特性。基于ti的结构所表现出的大SOT和高效的电流感应磁化开关可能会导致创新的自旋电子应用，如超低功耗存储/逻辑器件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Topological Insulators for Efficient Spin-Orbit Torques

Spintronics research based on topological insulators (TIs) has shown rapid progress during the past decade. Due to the strong spin-orbit coupling (SOC) and particularly the spin-momentum locked Dirac states on the surface, TIs are expected to be very promising materials for spintronic applications ranging from ultralow power memory/logic devices to new ultrafast computation technologies. In this digest, I will review the progress on TI-based spintronics. In particular, I will review the experiments on magnetization switching through giant spin-orbit torques (SOT) in various TI-based magnetic systems. The SOT efficiency and switching features in these structures will be discussed. The large SOT and efficient current-induced magnetization switching exhibited by the TI-based structures may lead to innovative spintronic applications such as ultralow-power dissipation memory/logic devices.

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2022 IEEE 33rd Magnetic Recording Conference (TMRC)

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