Carrier relaxation dynamics in quantum dots: Scattering mechanisms and state-filling effects
- Grosse, S.
- Sandmann, J. H. H.
- von Plessen, G.
- Feldmann, J.
- Lipsanen, Harri
- Sopanen, Markku
- Tulkki, J.
- Ahopelto, J.
Publication date
January 1997
DOI Publisher
American Physical Society (APS) ISSN
0163-1829Abstract
Stressor-induced InxGa1−xAs quantum dot structures of high structural quality allow a detailed experimental investigation of carrier relaxation between distinct zero-dimensional quantized states. Time-resolved photoluminescence studies combined with appropriate model calculations show that state filling effects, Coulomb scattering, and acoustic phonon scattering determine the relaxation scenario in a way characteristic for a zero-dimensional electronic system. These investigations allow a quantitative estimation of the inter-dot-level relaxation rates mediated by (i) Coulomb scattering and (ii) acoustic phonon scattering.Peer reviewe
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