Spin-orbit interaction in GaAs wells: From one to two subbands

Abstract

We investigate the Rashba and Dresselhaus spin-orbit (SO) couplings in GaAs quantum wells in the range of well widths w allowing for a transition of the electron occupancy from one to two subbands. By performing a detailed Poisson-Schr\"odinger self-consistent calculation, we determine all the intra- and inter-subband Rashba (α1, α2, η) and Dresselhaus (β1, β2, ) coupling strengths. For relatively narrow wells with only one subband occupied, our results are consistent with the data of Koralek et al. [Nature 48, 610 (2009)], i.e., the Rashba coupling α1 is essentially independent of w in contrast to the decreasing linear Dresselhaus coefficient β1. When we widen the well so that the second subband can also be populated, we observe that α2 decreases and α1 increases, both almost linearly with w. Interestingly, we find that in the parameter range studied (i.e., very asymmetric wells) α2 can attain zero and change its sign, while α1 is always positive. In this double-occupancy regime of w's, β1 is mostly constant and β2 decreases with w (similarly to β1 for the single-occupancy regime). On the other hand, the intersubband Rashba coupling strength η decreases with w while the intersubband Dresselhaus remains almost constant. We also determine the persistent-spin-helix symmetry points, at which the Rashba and the renormalized (due to cubic corrections) linear Dresselhaus couplings in each subband are equal, as a function of the well width and doping asymmetry. Our results should stimulate experiments probing SO couplings in multi-subband wells.