Temperature dependence of the mean magnon collision time in a spin Seebeck device
Abstract
Based on the relaxation time approximation, the mean collision time for magnon scattering τc(T) is computed from the experimental spin Seebeck coefficient of a bulk YIG / Pt bilayer. The scattering results to be composed by two processes: the low temperature one, with a T-1/2 dependence, is attributed to the scattering by defects and provides a mean free path around 10 μm; the high temperature one, depending on T-4, is associated to the scattering by other magnons. The results are employed to predict the thickness dependence of the spin Seebeck coefficient for thin films.
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