Voltage-driven v.s. Current-driven Spin Torque in Anisotropic Tunneling Junctions

Abstract

Non-equilibrium spin transport in a magnetic tunnel junction comprising a single magnetic layer in the presence of interfacial spin-orbit interaction (SOI) is studied theoretically. The interfacial SOI generates a spin torque of the form T=T|| Mx( zx M)+T zx M, even in the absence of an external spin polarizer. For thick and large tunnel barriers, the torque reduces to the perpendicular component, T, which can be electrically tuned by applying a voltage across the insulator. In the limit of thin and low tunnel barriers, the in-plane torque T|| emerges, proportional to the tunneling current density. Experimental implications on magnetic devices are discussed.