Correlating exciton localization with compositional fluctuations in InGaN∕GaN quantum wells grown on GaN planar surfaces and facets of GaN triangular prisms

S Khatsevich,P D Dapkus,D H Rich,X Zhang

doi:10.1063/1.2802291

Correlating exciton localization with compositional fluctuations in InGaN∕GaN quantum wells grown on GaN planar surfaces and facets of GaN triangular prisms

S Khatsevich, P D Dapkus + Show 2 more

https://doi.org/10.1063/1.2802291

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Journal: Journal of Applied Physics	Publication Date: Nov 1, 2007
Citations: 8

Affiliation: Ben-Gurion University of the Negev, University of Southern California

#Metal-organic Chemical Vapor Deposition System #In-rich Quantum Dots #Exciton Localization #GaN Quantum Wells #Lateral Epitaxial Overgrowth #InGaN Quantum Wells #Quantum Wells #GaN Quantum #Compositional Fluctuations #Luminescence Efficiency

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We have used spatially and temporally resolved cathodoluminescence (CL) to study the carrier recombination dynamics of InGaN quantum wells (QWs) grown on (0001)-oriented planar GaN and {11¯01}-oriented facets of GaN triangular prisms prepared by lateral epitaxial overgrowth in a metal-organic chemical vapor deposition system. The effects of In migration during growth on the resulting QW thickness and composition were examined. We employed a variable temperature time-resolved CL imaging approach that enables a spatial correlation between regions of enhanced exciton localization, luminescence efficiency, and radiative lifetime with the aim of distinguishing between excitons localized in In-rich quantum dots and those in the surrounding Ga-rich QW regions.

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Correlating exciton localization with compositional fluctuations in InGaN∕GaN quantum wells grown on GaN planar surfaces and facets of GaN triangular prisms