自旋电子学
凝聚态物理
异质结
范德瓦尔斯力
自旋(空气动力学)
电荷(物理)
自旋极化
物理
铁磁性
磁化
对称性破坏
偶极子
自旋霍尔效应
磁场
量子力学
电子
分子
热力学
作者
Yudi Dai,Junlin Xiong,Yanfeng Ge,Bin Cheng,Lizheng Wang,Pengfei Wang,Zenglin Liu,Shengnan Yan,Cuiwei Zhang,Xianghan Xu,Youguo Shi,Sang‐Wook Cheong,Cong Xiao,Shengyuan A. Yang,Shi‐Jun Liang,Feng Miao
标识
DOI:10.1038/s41467-024-45318-8
摘要
Abstract The spin Hall effect (SHE) allows efficient generation of spin polarization or spin current through charge current and plays a crucial role in the development of spintronics. While SHE typically occurs in non-magnetic materials and is time-reversal even, exploring time-reversal-odd ( T -odd) SHE, which couples SHE to magnetization in ferromagnetic materials, offers a new charge-spin conversion mechanism with new functionalities. Here, we report the observation of giant T -odd SHE in Fe 3 GeTe 2 /MoTe 2 van der Waals heterostructure, representing a previously unidentified interfacial magnetic spin Hall effect (interfacial-MSHE). Through rigorous symmetry analysis and theoretical calculations, we attribute the interfacial-MSHE to a symmetry-breaking induced spin current dipole at the vdW interface. Furthermore, we show that this linear effect can be used for implementing multiply-accumulate operations and binary convolutional neural networks with cascaded multi-terminal devices. Our findings uncover an interfacial T -odd charge-spin conversion mechanism with promising potential for energy-efficient in-memory computing.
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