Extrinsic Spin Hall Effect Due to Transition-Metal Impurities

Abstract

We investigate the extrinsic spin Hall effect in the electron gas model due to transition-metal impurities based on the single-impurity Anderson model with orbital degrees of freedom. Both the skew scattering and side jump mechanisms are analyzed in a unified way, and the significant role of orbital degrees of freedom are clarified. The obtained spin Hall conductivities are in proportion to the spin-orbit polarization at the Fermi level (R = <l · s>) as is the case with the intrinsic spin Hall effect: skew scattering term σss ~ R δ1/, and side jump term σsj ~ R, where δ1 is the phase shift for p (l=1) partial wave. Furthermore, the present study indicates the existence of a nontrivial close relationship between the intrinsic term σint and the extrinsic side jump term σsj.