C. Netzel¹, V. Hoffmann¹, T. Wernicke¹, A. Knauer¹, M. Weyers¹, and M. Kneissl^1,2

Published in:

phys. stat. sol. (c), vol. 7, no. 7-8, pp. 1872-1874 (2010).

Abstract:

To determine relevant processes affecting the internal quantum efficiency in GaInN quantum well structures, we have studied the temperature and excitation power dependent photoluminescence intensity for quantum wells with different well widths on (0001) c-plane GaN and for quantum wells on nonpolar (11-20) a-plane GaN. In thick polar quantum wells, the quantum confined Stark effect (QCSE) causes a stronger intensity decrease with increasing temperature as long as the radiative recombination dominates. At higher temperatures, when the nonradiative recombination becomes more important, thick polar quantum wells feature a lower relative intensity decrease than thinner polar or nonpolar quantum wells. Excitation power dependent photoluminescence points to a transition from a recombination of excitons to a bimolecular recombination of uncorrelated charge carriers for thick polar quantum wells in the same temperature range. This transition might contribute to the limitation of nonradiative recombination by a reduced diffusivity of charge carriers.

Keywords:

GaInN, quantum wells, photoluminescence, excitons, recombination

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