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Theory of spin loss at metallic interfaces

Abstract

Interfacial spin-flip scattering plays an important role in magnetoelectronic devices. Spin loss at metallic interfaces is usually quantified by matching the magnetoresistance data for multilayers to the Valet-Fert model, while treating each interface as a fictitious bulk layer whose thickness is δ\delta times the spin-diffusion length. By employing the properly generalized circuit theory and the scattering matrix approaches, we derive the relation of the parameter δ\delta to the spin-flip transmission and reflection probabilities at an individual interface. It is found that δ\delta is proportional to the square root of the probability of spin-flip scattering. We calculate the spin-flip transmission probability for flat and rough Cu/Pd interfaces using the Landauer-B\"uttiker method based on the first-principles electronic structure and find δ\delta in reasonable agreement with experiment.Comment: 5 pages + supplementary material, 3 figures, version accepted in Phys. Rev. Let

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