Photo-induced non-collinear interlayer RKKY coupling in bulk Rashba semiconductors

IF 2.8 2区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY New Journal of Physics Pub Date : 2024-08-14 DOI:10.1088/1367-2630/ad6b43
Mahmoud M Asmar, Wang-Kong Tse
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Abstract

The interplay between light-matter, spin-orbit, and magnetic interactions allows the investigation of light-induced magnetic phenomena that are otherwise absent without irradiation. We present our analysis of light-driven effects on the interlayer exchange coupling mediated by a bulk Rashba semiconductor in a magnetic multilayer. The collinear magnetic exchange coupling mediated by the photon-dressed spin-orbit coupled electrons of BiTeI develops light-induced oscillation periods and displays new decay power laws, both of which are enhanced with an increasing light-matter coupling. For magnetic layers with non-collinear magnetization, we find a non-collinear magnetic exchange coupling uniquely generated by light-driving of the multilayer. As the non-collinear magnetic exchange coupling mediated by the photon-dressed electrons of BiTeI is unique to the irradiated system and it is enhanced with increasing light-matter coupling, this effect offers a promising platform of investigation of light-driven effects on magnetic phenomena in spin-orbit coupled systems. In this platform, light properties, such as its intensity, can serve as external knobs for inducing non-collinear couplings of the interlayer exchange and for modulating the collinear couplings. Both of these effects signify the photo-generated modification in the spin textures of spin-orbit coupled electrons in BiTeI.
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块状拉什巴半导体中光诱导的非共线层间 RKKY 耦合
光-物质、自旋轨道和磁相互作用之间的相互影响,使我们能够研究光诱导的磁现象,而这些现象在没有辐照的情况下是不存在的。我们介绍了对磁性多层中的块状拉什巴半导体介导的层间交换耦合的光驱动效应的分析。由 BiTeI 的光子压制自旋轨道耦合电子介导的共线磁交换耦合产生了光诱导的振荡周期,并显示出新的衰减幂律,这两者都随着光-物质耦合的增加而增强。对于非共线磁化的磁层,我们发现光驱动多层时会产生一种独特的非共线磁交换耦合。由于由 BiTeI 的光子压制电子介导的非共轭磁交换耦合是辐照系统所独有的,并且随着光-物质耦合的增加而增强,这种效应为研究光驱动对自旋轨道耦合系统中的磁现象的影响提供了一个很有前景的平台。在这个平台上,光的特性(如强度)可以作为外部旋钮,诱导层间交换的非共线耦合和调节共线耦合。这两种效应标志着自旋轨道耦合电子在 BiTeI 中的自旋纹理发生了光致改变。
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来源期刊
New Journal of Physics
New Journal of Physics 物理-物理:综合
CiteScore
6.20
自引率
3.00%
发文量
504
审稿时长
3.1 months
期刊介绍: New Journal of Physics publishes across the whole of physics, encompassing pure, applied, theoretical and experimental research, as well as interdisciplinary topics where physics forms the central theme. All content is permanently free to read and the journal is funded by an article publication charge.
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