Abstract
The optical properties of InGaN∕GaN quantum well structures, with indium fractions of 0.15 and 0.25, have been studied under resonant excitation conditions. The low-temperature (T=6K) photoluminescence spectra revealed a broad recombination peak that the authors have attributed to the acoustic-phonon assisted emission from a distribution of localized states, excited via an acoustic-phonon assisted absorption process. Comparing these results with theoretical calculations, where the authors consider the deformation potential coupling of the separately localized electron/hole pairs to an effectively continuous distribution of acoustic phonons, gives a value of approximately 2.5Å for the in-plane localization length scale.
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