E. M. Hankiewicz, G. Vignale, M. Flatte
Published 2006-03-07, updated 2006-10-14Version 3
A self-consistent treatment of the spin-Hall effect requires consideration of the spin-orbit coupling and electron-impurity scattering on equal footing. This is done here for the experimentally relevant case of a [110] GaAs quantum well [Sih {\it et al.}, Nature Physics 1, 31 (2005)]. Working within the framework of the exact linear response formalism we calculate the spin-Hall conductivity including the Dresselhaus linear and cubic terms in the band structure, as well as the electron-impurity scattering and electron-electron interaction to all orders. We show that the spin-Hall conductivity naturally separates into two contributions, skew-scattering and side-jump, and we propose an experiment to distinguish between them.
Comments: The connection with the recent experiment on [110] quantum wells is emphasized
Journal: Phys. Rev. Lett. 97, 266601 (2006)
Stationary states and screening equations in the spin-Hall effect
Spin-Hall Effect: From the Ballistic to the Diffusive Regime
Spin-Hall Effect in Chiral Electron Systems: from Semiconductor Heterostructures to Topological Insulators
