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HL: Halbleiterphysik
HL 22: Poster II
HL 22.43: Poster
Dienstag, 18. März 1997, 15:30–18:30, Z
Polaron and Bipolaron States and Absorption of Intensive Light in Quantum Dots — •V. M. Fomin1,2, S. N. Balaban1, E. P. Pokatilov1, J. T. Devreese2, S. N. Klimin1, and V. N. Gladilin1 — 1Department of Theoretical Physics, State University of Moldova, Str. Mateevici 60, MD-2009 Kishinev, Republic of Moldova — 2Departement Natuurkunde, Universitaire Instelling Antwerpen, Universiteitsplein 1, B-2610 Antwerpen, Belgium
The analysis of the influence of the electron confinement on the polaron energy and on the bipolaron binding energy [1] is extended to the case of quantum dots. The confinement in a quantum dot is described by a parabolic spherically symmetric potential. The Feynman variational principle is used. It is shown that the bipolaron binding energy as a function of the quantum dot radius has a maximum at the radii values of the order of the polaron radius. The problem of the absorption of a strong electromagnetic radiation in a quantum dot is timely due to the use of glasses with quantum dots as light filters. The multiphoton absorption coefficient is calculated for the main electron scattering mechanisms: on impurities, deformational, optical polar etc. It is shown that the dominating scattering mechanism changes with varying the quantum dot radius. This work is supported by NFWO, WOG (Belgium).
[1] E. P. Pokatilov, V. M. Fomin, J. T. Devreese, S. N. Balaban, S. N. Klimin, L. C. Fai, Superlattices and Microstructures 20, No. 1 (1996).