J.A. Barker, D. Henderson, et al.
Molecular Physics
Using time-resolved luminescence we measure the energy relaxation of excitons in thin quantum wells. We find that the excitons relax by losing potential energy in a drift-diffusion motion driven by potential fluctuations in the quantum well plane, which are longer than the coherence length of the excitons. For a constant interface quality the coherence length strongly decreases with decreasing well width so that drift-diffusion dominates the exciton relaxation in thin quantum wells. © 1992.
J.A. Barker, D. Henderson, et al.
Molecular Physics
Sharee J. McNab, Richard J. Blaikie
Materials Research Society Symposium - Proceedings
T. Schneider, E. Stoll
Physical Review B
A. Gangulee, F.M. D'Heurle
Thin Solid Films