Influence of Coulomb correlations on the quantum well intersubband absorption at low temperatures

Abstract

We present a theory for the intersubband absorption including electronic ground state correlations in a doped GaAs/Al35Ga65As quantum well system. Focusing on the influence of the Coulomb interaction among the carriers at low temperatures, we find that the ground state correlations lead to an increased renormalization and spectral broadening of the absorption spectrum. At T = 1 K, its full width at half maximum is increased by up to a factor 3. The inclusion of electron-phonon scattering strongly reduces the relative impact of the electronic correlations.