Spin Relaxation in a Quantized Hall Regime in Presence of a Disorder
Abstract
We study the spin relaxation (SR) of a two-dimensional electron gas (2DEG) in the quantized Hall regime and discuss the role of spatial inhomogeneity effects on the relaxation. The results are obtained for small filling factors ( 1) or when the filling factor is close to an integer. In either case SR times are essentially determined by a smooth random potential. For small we predict a "magneto-confinement" resonance manifested in the enhancement of the SR rate when the Zeeman energy is close to the spacing of confinement sublevels in the low-energy wing of the disorder-broadened Landau level. In the resonant region the B-dependence of the SR time has a peculiar non-monotonic shape. If 2n+1, the SR is going non-exponentially. Under typical conditions the calculated SR times range from 10-8 to 10-6 s.
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