Algebraic decay of non-adiabatic spin transfer torque in magnetic domain walls with Rashba spin orbit interaction

D. Wang, Yan Zhou

Published 2019-10-24Version 1

Spin transfer torque in a two dimensional electron gas system without space inversion symmetry was theoretically investigated by solving the Pauli-Schr\"{o}dinger equation for the itinerant electrons inside magnetic domain walls. Due to the presence of the Rashba spin orbit coupling induced by the broken inversion symmetry, the non-adiabaticity, which is defined to measure the relative importance of the non-adiabatic, field-like torque to the adiabatic, damping-like torque, exhibits an inverse power law decay as the domain wall width is increased. This algebraic decay is much slower than the exponential decay observed for systems without the Rashba spin orbit coupling, and may find applications in innovative design of spintronic devices utilising magnetic topological textures such as magnetic domain walls and skyrmions.