Light-induced Nonlinear Resonant Spin Magnetization

Sayan Sarkar, Sunit Das, Debottam Mandal, Amit Agarwal
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Abstract

The optical generation of nonequilibrium spin magnetization plays a crucial role in advancing spintronics, providing ultrafast control of magnetization dynamics without the need for magnetic fields. Here, we demonstrate the feasibility of light-induced nonlinear spin magnetization (LNSM), which becomes a dominant effect in centrosymmetric materials. We reveal the quantum geometric origins of various LNSM contributions in both metallic and insulating systems. Through detailed symmetry analysis, we predict significant LNSM in the antiferromagnetic material CuMnAs. Notably, under circularly polarized light, the spin magnetization exhibits helicity-dependent behavior, reversing with opposite light helicity. These findings open up new possibilities for generating LNSM-driven nonlinear spin-orbit torques and developing innovative opto-spintronic devices.
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光诱导非线性共振自旋磁化
非平衡自旋磁化的光学产生在推进自旋电子学方面发挥着至关重要的作用,它提供了无需磁场的超快磁化动力学控制。在这里,我们展示了光诱导非线性自旋磁化(LNSM)的可行性,它在中心对称材料中成为一种主导效应。我们揭示了金属和绝缘系统中各种 LNSM 贡献的量子几何起源。通过详细的对称性分析,我们预测了反铁磁材料 CuMnAs 中显著的 LNSM。值得注意的是,在圆偏振光下,自旋磁化表现出螺旋度依赖行为,与相反的光螺旋度发生反转。这些发现为产生 LNSM 驱动的非线性自旋轨道力矩和开发创新的自旋电子器件提供了新的可能性。
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