Enhancement of Auger recombination induced by carrier localization in InGaN/GaN quantum wells
Auteurs | Shahmohammadi M., Liu W., Rossbach G., Lahourcade L., Dussaigne A., Bougerol C., Butté R., Grandjean N., Deveaud B., Jacopin G. |
Year | 2017-0188 |
Source-Title | Physical Review B |
Affiliations | Institute of Physics, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, University of Grenoble Alpes, CEA, LETI, MINATEC Campus, Grenoble, France, University of Grenoble Alpes, Institut Néel, Grenoble, France, OSRAM Opto Semiconductors GmbH, Leibnizstr. 4, Regensburg, Germany |
Abstract | The origin of efficiency droop in state-of-the-art quality InGaN/GaN and GaN/AlGaN quantum wells (QWs) grown on various crystal planes is studied by means of time-resolved photoluminescence spectroscopy associated with a precise determination of the QW carrier density. In a first set of experiments, it is shown that a polar InGaN/GaN QW under nonresonant high optical excitation shows clear signatures of Auger loss mechanism and thus behaves quite differently compared to its binary based GaN/AlGaN QW counterpart, where no Auger signature is observed. In order to get rid of the impact of the built-in polarization field and illustrate the dominant role of carrier localization, similar experiments have been conducted on two m-plane InGaN/GaN QWs with similar In composition but a different degree of disorder. We demonstrate that carrier localization strongly enhances the Auger recombination process in nonpolar InGaN/GaN QWs. We also show that this effect may be further amplified by the presence of polarization fields on polar QWs. The relaxation of the k-selection rule during the Auger recombination process, resulting from QW potential disorder, can account for the enhancement of the efficiency droop in InGaN/GaN QWs. © 2017 American Physical Society. |
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ISSN | 24699950 |
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