Scattering mechanisms in state-of-the-art GaAs/AlGaAs quantum wells

Abstract

Motivated by recent breakthrough in molecular beam epitaxy of GaAs/AlGaAs quantum wells [Y. J. Chung et al., Nature Materials 20, 632 (2021)], we examine contributions to mobility and quantum mobility from various scattering mechanisms and their dependencies on the electron density. We find that at lower electron densities, ne 1 × 1011 cm-2, both transport and quantum mobility are limited by unintentional background impurities and follow a power law dependence, neα, with α ≈ 0.85. Our predictions for quantum mobility are in reasonable agreement with an estimate obtained from the resistivity at filling factor = 1/2 in a sample of Y. J. Chung et al. with ne = 1 × 1011 cm-2. Consideration of other scattering mechanisms indicates that interface roughness (remote donors) is a likely limiting factor of transport (quantum) mobility at higher electron densities. Future measurements of quantum mobility should yield information on the distribution of background impurities in GaAs and AlGaAs.