Quasiclassical theory of the spin-orbit magnetoresistance of three-dimensional Rashba metals

Quasiclassical theory of the spin-orbit magnetoresistance of three-dimensional Rashba metals

The magnetoresistance of a three-dimensional Rashba metal placed on top of a ferromagnetic insulator is theoretically investigated. In addition to the intrinsic Rashba spin-orbit interaction, we consider extrinsic spin-orbit coupling via side-jump and skew scattering, as well as Elliott-Yafet spin r...

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Bibliographic Details
Published in:New journal of physics Vol. 20; no. 10; pp. 103024 - 103035
Main Authors: Tölle, Sebastian, Dzierzawa, Michael, Eckern, Ulrich, Gorini, Cosimo
Format: Journal Article
Language:English
Published: Bristol IOP Publishing 18-10-2018
Subjects:
Anisotropy
Boundary conditions
Crystal structure
Ferromagnetism
kinetic equations
Magnetoresistance
Magnetoresistivity
Physics
Polarization (spin alignment)
Rashba metal
spin-orbit coupling
Spin-orbit interactions
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Summary:The magnetoresistance of a three-dimensional Rashba metal placed on top of a ferromagnetic insulator is theoretically investigated. In addition to the intrinsic Rashba spin-orbit interaction, we consider extrinsic spin-orbit coupling via side-jump and skew scattering, as well as Elliott-Yafet spin relaxation. The latter is anisotropic due to the mass anisotropy which reflects the noncentrosymmetric crystal structure. A quasiclassical approach is employed to derive coupled spin-diffusion equations, which are supplemented by boundary conditions that account for the spin-transfer torque at the interface of the bilayer. The magnetoresistance is fully determined by the current-induced spin polarization, i.e., it cannot in general be ascribed to a single (bulk) spin Hall angle. Our theory reproduces several features of the experiments, at least qualitatively, and contains established phenomenological results in the relevant limiting cases. In particular, the anisotropy of the Elliott-Yafet spin relaxation mechanism plays a major role for the interpretation of the observed magnetoresistance.
Bibliography:NJP-109039.R1
ISSN:1367-2630
1367-2630
DOI:10.1088/1367-2630/aae576