Current-driven magnetization dynamics of single ferromagnets in heavy metal/ferromagnet bilayers has been recently realized. In this work, spin torque induced by so-called Rashba spin-orbit coupling and spin Hall effect are considered within a diffusive model. The dependence of the resulting torque as a function of the thicknesses of the ferromagnet and heavy metal is analyzed. We show that (i) both torques are on the form T=T∣∣m×y+T⊥m×(y×m), (ii) the ratio T∣∣/T⊥ strongly depends on the thickness of the layers and (iii) the thickness dependence of the spin torque provides an indication of the origin of the (Rashba- or spin Hall effect-induced) spin torque .
@article{arxiv.1204.4869,
title = {Spin Hall effect versus Rashba torque: a Diffusive Approach},
author = {Aurelien Manchon},
journal= {arXiv preprint arXiv:1204.4869},
year = {2012}
}