Exciton condensation in potential traps

Author

Butov, L.V. ; Lai, C.W. ; Ivanov, A.L. ; Gossard, Arthur C. ; Chemla

Author_Institution

Mater. Sci. Div., E.O. Lawrence Berkeley Nat. Lab., CA, USA

fYear

2002

fDate

19-24 May 2002

Firstpage

167

Abstract

Summary form only given. In the dilute limit excitons behave as weakly interacting Bose particles and are expected to undergo the Bose-Einstein condensation (BEC). Because the exciton mass is very small at experimentally accessible exciton densities the critical temperature for exciton BEC should reach several Kelvins, i.e., about six orders of magnitude higher than the T/sub c/ for atom BEC. To create degenerate Bose-gas of excitons we propose quasi-2D gas of indirect excitons in coupled quantum wells (CQWs) which have two primary advantages for realizing a quantum degenerate exciton gas and, ultimately, the BEC-like phase transition: (i) the long lifetime of indirect excitons and (ii) the short exciton cooling time.

Keywords

Bose-Einstein condensation; excitons; radiation pressure; semiconductor quantum wells; BEC-like phase transition; Bose-Einstein condensation; coupled quantum wells; critical temperature; degenerate Bose-gas; dilute limit; exciton condensation; exciton energy shift; indirect excitons; laser spot; localized excitation; potential traps; quasi-2D gas; weakly interacting Bose particles; Excitons; Quantum wells;

fLanguage

English

Publisher

ieee

Conference_Titel

Quantum Electronics and Laser Science Conference, 2002. QELS '02. Technical Digest. Summaries of Papers Presented at the

Conference_Location

Long Beach, CA, USA

Print_ISBN

1-55752-708-3

Type

conf

DOI

10.1109/QELS.2002.1031262

Filename

1031262