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Paper detail

Intrinsic Spin Photogalvanic Effect in Nonmagnetic Insulator

We show that with the help of spin-orbit coupling, nonlinear light-matter interactions can efficiently couple with spin and valley degrees of freedom. This revealed spin photogalvanic effect can generate the long-time pursued intrinsic pure spin current (PSC) in non-centrosymmetric nonmagnetic insulators. Different from the spin and valley Hall effect, such a photo-driven spin current is universal and can be generated without external bias field. Using first-principles simulation, we study monolayer transition metal dichalcogenides (TMDs) to demonstrate this effect and confirm an enhanced PSC under linearly polarized photoexcitation. The amplitude of the PSC is one order larger than that of the charge current observed in monolayer TMDs. This exotic nonlinear light-spin interaction indicates that light can be utilized as a rapid fashion to manipulate the spin-polarized current, which is crucial for future low-dissipation nanodevices.

preprint2020arXivOpen access
Ruixiang FeiXiaobo LuLi Yang
cond-mat.mes-hallcond-mat.mtrl-sciphysics.comp-phphysics.optics
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Ruixiang FeiXiaobo LuLi Yang

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