Spin Pumping and Inverse Spin Hall Effect in Platinum: The Essential Role of Spin-Memory Loss at Metallic Interfaces

C. Deranlot; H. Jaffr\`es; J.-C. Rojas-S\'anchez; J.-M. George; J.-P. Attan\'e; L. Vila; M. Jamet; N. Reyren; P. Laczkowski; W. Savero

arxiv: 1312.2717 · v2 · pith:CSYIKEBBnew · submitted 2013-12-10 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Spin Pumping and Inverse Spin Hall Effect in Platinum: The Essential Role of Spin-Memory Loss at Metallic Interfaces

J.-C. Rojas-S\'anchez , N. Reyren , P. Laczkowski , W. Savero , J.-P. Attan\'e , C. Deranlot , M. Jamet , J.-M. George

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L. Vila H. Jaffr\`es

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classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords spinhalleffectangleferromagneticinverselossmodel

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Through combined ferromagnetic resonance, spin-pumping and inverse spin Hall effect experiments in Co|Pt bilayers and Co|Cu|Pt trilayers, we demonstrate consistent values of spin diffusion length $\ell_{\rm sf}^{\rm Pt}=3.4\pm0.4$ nm and of spin Hall angle $\theta_{\rm SHE}^{\rm Pt}=0.051\pm0.004$ for Pt. Our data and model emphasize on the partial depolarization of the spin current at each interface due to spin-memory loss. Our model reconciles the previously published spin Hall angle values and explains the different scaling lengths for the ferromagnetic damping and the spin Hall effect induced voltage.

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Spin Pumping and Inverse Spin Hall Effect in Platinum: The Essential Role of Spin-Memory Loss at Metallic Interfaces

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