Low Temperature Physics: 32, 1104 (2006); https://doi.org/10.1063/1.2389022 (7 pages)
Fizika Nizkikh Temperatur: Volume 32, Number 11 (November 2006), p. 1449-1457    ( to contents , go back )

Exciton condensation in quantum wells

V.I. Sugakov

Institute for Nuclear Research, 47 Nauki Ave., Kiev, 03680, Ukraine
E-mail: sugakov@i.com.ua
pos Анотація:

Received May 24, 2006, revised July 7, 2006

Abstract

The theory of exciton condensation is given in two-dimensional systems under suggestion that condensation occurs in really space and condensed phase arises as a result of an attractive interaction between excitons. Due to the finite value of exciton lifetime the sizes of exciton condensed phase regions are restricted and the condensed phase appears in a form of system of islands amid exciton gas. The joint solution of kinetic equations for island size and exciton diffusion equation in the space between islands has been obtained. The theory is applied to explanation of experimental manifestation of condensed phase in quantum wells and also to explanation of the periodical fragmentation, which was observed in luminescence spectrum from a ring around a laser spot in a crystal with double quantum wells. For such explanations the theory does not require the exciton Bose–Einstein condensation.

PACS:
73.21.Fg - Quantum wells
78.67.De - Quantum wells

Key words: two-dimensional systems, exciton condensation theory, luminescence spectrum periodical fragmentation.

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