Pauli blockade of the electron spin flip in bulk GaAs

Abstract

By means of time-resolved optical orientation under strong optical pumping, the k-dependence of the electron spin-flip time (tsf) in undoped GaAs is experimentally determined. tsf monotonically decreases by more than one order of magnitude when the electron kinetic energy varies from 2 to 30 meV. At the high excitation densities and low temperatures of the reported experiments the main spin-flip mechanism of the conduction band electrons is the Bir-Aronov-Pikus. By means of Monte-Carlo simulations we evidence that phase-space filling effects result in the blocking of the spin flip, yielding an increase of tsf with excitation density. These effects obtain values of tsf up to 30 ns at k=0, the longest reported spin-relaxation time in undoped GaAs in the absence of a magnetic field.

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