Views provided by UsageCountsTemperature dependence of the effective mobility edge and recombination dynamics of free and localized excitons in InGaP/GaAs quantum wells
Copyright policy ) RUDAMAS C.; MARTINEZ PASTOR J.; GONZALEZ L.; VINATTIERI, ANNA; COLOCCI, MARCELLO;
Temperature dependence of the effective mobility edge and recombination dynamics of free and localized excitons in InGaP/GaAs quantum wells
The temperature dependence of the effective mobility edge in semiconductor quantum wells containing disorder is reported for the first time. It is deduced by reproducing the experimental continuous wave and time resolved luminescence spectra by means of a two-class exciton kinetic model, which considers the co-existence of free and localized excitons and introduces a mobility edge defined by a Fermi function. The mobility edge varies faster than the PL peak energy when the temperature increases, passing from the high energy side of the PL band at low temperatures (recombination of localized excitons dominates) to the low energy side above 125 K (recombination of quasi-free excitons dominates).
3 páginas, 1 figura.-- Comunicación presentada al Proceedings of the International Conference on Superlattices, Nano-structures and Nano-devices ICSNN 2002 o-structures and Nano-devices ICSNN 2002.
This work has been supportedby the Spanish CICYT under the project no. TIC99-1035.
Peer reviewed
Italy, Spain
- Spanish National Research Council Spain
- University of Florence Italy
- University of Valencia Spain
Quantum wells, Disorder, Photoluminescence
Quantum wells, Disorder, Photoluminescence
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