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2011 | 119 | 5 | 624-626
Article title

Quantum Confinement in InAs/GaAs Systems with Self-Assembled Quantum Dots Grown Using In-Flush Technique

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Languages of publication
EN
Abstracts
EN
The effect of In-flush technique application to the MBE-grown structure with self-assembled quantum dots is investigated in this work. The microphotoluminescence from structures with the InAs/GaAs dots grown with and without the In-flush has been investigated. We focus our attention on "not fully developed" dots, which can be clearly distinguished in the spectrum. The dots have also been identified in the transmission electron microscopy analysis of the structures. The In-flush does not influence a broad energy range of those features. Instead we have found that the anisotropic exchange energy splitting of neutral excitons confined in those in the structure grown with In-flush is substantially lower that the splitting in the structure with no In-flush. This observation confirms that the In-flush leads not only to better uniformity of self-assembled quantum dots but also to reduction of lateral potential, anisotropy, which is believed to result in the neutral exciton splitting.
Keywords
EN
Publisher

Year
Volume
119
Issue
5
Pages
624-626
Physical description
Dates
published
2011-05
Contributors
author
  • Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69, 00-681 Warszawa, Poland
author
  • Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69, 00-681 Warszawa, Poland
  • Institute of Physics of the AS CR, Cukrovarnická 10/112, CZ-182 21 Praha 8, Czech Republic
author
  • Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69, 00-681 Warszawa, Poland
author
  • Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69, 00-681 Warszawa, Poland
  • Institute for Microstructural Sciences, National Research Council, Ottawa, Ontario, K1A 0R6, Canada
author
  • Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Hoża 69, 00-681 Warszawa, Poland
References
  • 1. Z.R. Wasilewski, S. Fafard, J.P. McCaffrey, J. Cryst. Growth 201, 1131 (1999)
  • 2. M. Korkusiński, M. Zieliński, P. Hawrylak, J. Appl. Phys. 105, 122406 (2009)
  • 3. A. Babiński, M. Potemski, S. Raymond, J. Lapointe, Z. Wasilewski, Phys. Rev. B 74, 155301 (2006)
  • 4. A. Babiński, J. Borysiuk, S. Kret, M. Czyz, A. Golnik, S. Raymond, Z.R. Wasilewski, Appl. Phys. Lett. 92, 171104 (2008)
  • 5. For more details on the QDs emission see A. Babinski, M. Potemski, S. Raymond, J. Lapointe, Z. Wasilewski, Phys. Rev. B 74, 155301 (2006)
  • 6. G. Ortner, M. Schwab, M. Bayer, R. Pässler, S. Fafard, Z. Wasilewski, P. Hawrylak, A. Forchel, Phys. Rev. B 72, 085328 (2005)
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.bwnjournal-article-appv119n515kz
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