Novel excitonic transitions in n-type GaAs/AlGaAs quantum wells

H.A. Nickel 1 ) (a), G.S. Herold (a), T. Yeo (a), G. Kioseoglou (a), Z.X. Jiang (a), B.D. McCombe (a), A. Petrou (a), D. Broido (b), and W. Schaff (c)

Shake-up transitions involving QW hole subbands have been observed as satellites in selective photoluminescence spectra of undoped \(\mathrm{GaAs} / \mathrm{AlGaAs}\) QWs. These shake-up transitions are explained in terms of an interaction between localized exciton and valenceband hole states attach

We report an experimental study of the excitonic spin relaxation dynamics in GaAs/AlGaAs Multiple Quantum Wells (MQW) presenting interface roughness by time and polarization resolved luminescence spectroscopy. The relaxation is found to occur mainly when the excitons are in the free state, before th

We report the first measurements of the interaction of non-equilibrium phonons with twodimensional exciton gases (2DExGs). The rise in the effective temperature of the 2DExG produced by the phonons depends on the width of the quantum well and the exciton sheet density and hence on the ratio 5 -l (ex

The temperature dependence of excitonic transitions in double quantum well heterostructures in the temperature range of 2-300 K were investigated. A crossing between excitonic transition experimental curves as a function of temperature in quantum wells of the same thickness and different barrier hei

We report on the effect of photogenerated free carriers on the spectral diffusion and on the LO-phonon Raman scattering of resonantly excited excitons. This is observed by an exciton population redistribution between localized states and by a decrease in the Raman scattering intensity under an extre