C. Gorini, P. Schwab, R. Raimondi, A. L. Shelankov
Published 2010-03-30, updated 2010-11-16Version 3
We present a microscopic derivation of the generalized Boltzmann and Eilenberger equations in the presence of non-Abelian gauges, for the case of a non-relativistic disordered Fermi gas. A unified and symmetric treatment of the charge $[U(1)]$ and spin $[SU(2)]$ degrees of freedom is achieved. Within this framework, just as the $U(1)$ Lorentz force generates the Hall effect, so does its $SU(2)$ counterpart give rise to the spin Hall effect. Considering elastic and spin-independent disorder we obtain diffusion equations for charge and spin densities and show how the interplay between an in-plane magnetic field and a time dependent Rashba term generates in-plane charge currents.
Comments: 11 pages, 1 figure; some corrections and updated/extended references
Journal: Phys.Rev.B82:195316,2010
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