Experimental discovery of the spin-Hall effect in Rashba spin-orbit coupled semiconductor systems

Abstract

We report the experimental observation of the spin-Hall effect in a two-dimensional (2D) hole system with Rashba spin-orbit coupling. The 2D hole layer is a part of a p-n junction light-emitting diode with a specially designed vertical and planar geometry which allows an angle-resolved polarization detection at opposite edges of the 2D hole system. In equilibrium the angular momenta of the Rashba split heavy hole states lie in the plane of the 2D layer. When an electric field is applied across the hole channel a non zero out-of-plane component of the angular momentum is detected whose sign depends on the sign of the electric field and is opposite for the two edges. Microscopic quantum transport calculations show that the disorder scattering is weak compared to the Rashba coupling in the studied 2D hole system, favoring the intrinsic spin Hall mechanism.