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Thermal spin current and spin accumulation at ferromagnetic insulator/nonmagnetic metal interface

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arxiv 1603.00942 v1 pith:CIGB6TR4 submitted 2016-03-03 cond-mat.mes-hall

Thermal spin current and spin accumulation at ferromagnetic insulator/nonmagnetic metal interface

classification cond-mat.mes-hall
keywords spincurrentgradientnon-equilibriumnonmagnetictemperatureaccumulationferromagnetic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Spin current injection and spin accumulation near a ferromagnetic insulator (FI)/nonmagnetic metal (NM) bilayer film under a thermal gradient is investigated theoretically. Using the Fermi golden rule and the Boltzmann equations, we find that FI and NM can exchange spins via interfacial electron-magnon scattering because of the imbalance between magnon emission and absorption caused by either non-equilibrium distribution of magnons or non-equilibrium between magnons and electrons. A temperature gradient in FI and/or a temperature difference across the FI/NM interface generates a spin current which carries angular momenta parallel to the magnetization of FI from the hotter side to the colder one. Interestingly, the spin current induced by a temperature gradient in NM is negligibly small due to the nonmagnetic nature of the non-equilibrium electron distributions. The results agree well with all existing experiments.

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