Angular dependence and symmetry of Rashba spin torque in ferromagnetic heterostructures

Abstract

In a ferromagnetic heterostructure, the interplay between a Rashba spin-orbit coupling and an exchange field gives rise to a current-driven spin torque. In a realistic device setup, we investigate the Rashba spin torque in the diffusive regime and report two major findings: (i) a nonvanishing torque exists at the edges of the device even when the magnetization and effective Rashba field are aligned; (ii) anisotropic spin relaxation rates driven by the Rashba spin-orbit coupling assign the spin torque a general expression T=Ty(θ) m×( y× m)+Ty(θ) y× m+Tz(θ) m×( z× m)+Tz(θ) z× m, where the coefficients T,y,z depend on the magnetization direction. Our results agree with recent experiments.