Decay dynamics and exciton localization in large GaAs quantum dots grown by droplet epitaxy

P. Tighineanu, R. Daveau, E. H. Lee, J. D. Song, S. Stobbe, and P. Lodahl
Phys. Rev. B 88, 155320 – Published 25 October 2013

Abstract

We investigate the optical emission and decay dynamics of excitons confined in large strain-free GaAs quantum dots grown by droplet epitaxy. From time-resolved measurements combined with a theoretical model we show that droplet-epitaxy quantum dots have a quantum efficiency of about 75% and an oscillator strength between 8 and 10. The quantum dots are found to be fully described by a model for strongly confined excitons, in contrast to the theoretical prediction that excitons in large quantum dots exhibit the so-called giant oscillator strength. We attribute these findings to localized ground-state excitons in potential minima created by material intermixing during growth. We provide further evidence for the strong-confinement regime of excitons by extracting the size of electron and hole wave functions from the phonon-broadened photoluminescence spectra. Furthermore, we explore the temperature dependence of the decay dynamics and, for some quantum dots, observe a pronounced reduction in the effective transition strength with temperature. We quantify and explain these effects as being an intrinsic property of large quantum dots owing to thermal excitation of the ground-state exciton. Our results provide a detailed understanding of the optical properties of large quantum dots in general, and of quantum dots grown by droplet epitaxy in particular.

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  • Received 28 June 2013

DOI:https://doi.org/10.1103/PhysRevB.88.155320

©2013 American Physical Society

Authors & Affiliations

P. Tighineanu1,*, R. Daveau1, E. H. Lee2, J. D. Song2, S. Stobbe1, and P. Lodahl1,†

  • 1Niels Bohr Institute, University of Copenhagen, Blegdamsvej 17, DK-2100 Copenhagen, Denmark
  • 2Center for Opto-Electronic Convergence Systems, Korea Institute of Science and Technology, Seoul, 136-791, Korea

  • *petru.tighineanu@nbi.ku.dk
  • lodahl@nbi.ku.dk; http://www.quantum-photonics.dk/

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Issue

Vol. 88, Iss. 15 — 15 October 2013

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