Nonlinear orbital and spin Edelstein effect in centrosymmetric metals

Insu Baek, Seungyun Han, Suik Cheon, Hyun-Woo Lee
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Abstract

Nonlinear spintronics combines nonlinear dynamics with spintronics, opening up new possibilities beyond linear responses. A recent theoretical work [Xiao et al. Phys. Rev. Lett. 130, 166302 (2023)] predicts the nonlinear generation of spin density [nonlinear spin Edelstein effect (NSEE)] in centrosymmetric metals based on symmetry analysis combined with first-principle calculation. This paper focuses on the fundamental role of orbital degrees of freedom for the nonlinear generation in centrosymmetric systems. Using a combination of tight-binding model and density functional theory calculations, we demonstrate that nonlinear orbital density can arise independently of spin–orbit coupling. In contrast, spin density follows through spin–orbit coupling. We further elucidate the microscopic mechanism responsible for this phenomenon, which involves the NSEE induced by electric-field-induced orbital Rashba texture. In addition, we also explore the potential applications of the nonlinear orbital and spin Edelstein effect for magnetic-field-free switching of magnetization.

Abstract Image

中心对称金属中的非线性轨道和自旋埃德尔斯坦效应
非线性自旋电子学将非线性动力学与自旋电子学相结合,开辟了超越线性响应的新可能性。最近的一项理论工作[肖等人,Phys. Rev. Lett. 130, 166302 (2023)]基于对称性分析结合第一性原理计算,预测了中心对称金属中自旋密度的非线性产生[非线性自旋爱德斯坦效应(NSEE)]。本文重点研究了轨道自由度对中心对称体系中非线性产生的基本作用。通过结合紧密结合模型和密度泛函理论计算,我们证明了非线性轨道密度可以独立于自旋轨道耦合而产生。相反,自旋密度是通过自旋轨道耦合产生的。我们进一步阐明了造成这一现象的微观机制,其中涉及由电场诱导的轨道拉什巴纹理引起的非线性自旋密度。此外,我们还探讨了非线性轨道和自旋爱德斯坦效应在无磁场磁化切换中的潜在应用。
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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