Spin Hall effect due to intersubband-induced spin-orbit interaction in symmetric quantum wells

Abstract

We investigate the intrinsic spin Hall effect in two-dimensional electron gases in quantum wells with two subbands, where a new intersubband-induced spin-orbit coupling is operative. The bulk spin Hall conductivity σzxy is calculated in the ballistic limit within the standard Kubo formalism in the presence of a magnetic field B and is found to remain finite in the B=0 limit, as long as only the lowest subband is occupied. Our calculated σzxy exhibits a nonmonotonic behavior and can change its sign as the Fermi energy (the carrier areal density n2D) is varied between the subband edges. We determine the magnitude of σzxy for realistic InSb quantum wells by performing a self-consistent calculation of the intersubband-induced spin-orbit coupling.