Evidence of Bose-Einstein Condensation in an Atomic Gas with Attractive Interactions

Evidence for Bose-Einstein condensation of a gas of spin-polarized {sup 7}Li atoms is reported. Atoms confined to a permanent-magnet trap are laser cooled to 200 {mu}K and are then evaporatively cooled to lower temperatures. Phase-space densities consistent with quantum degeneracy are measured for t...

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Veröffentlicht in:Physical Review Letters 1995-08, Vol.75 (9), p.1687-1690
Hauptverfasser: Bradley, CC, Sackett, CA, Tollett, JJ, Hulet, RG
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Sprache:eng
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Zusammenfassung:Evidence for Bose-Einstein condensation of a gas of spin-polarized {sup 7}Li atoms is reported. Atoms confined to a permanent-magnet trap are laser cooled to 200 {mu}K and are then evaporatively cooled to lower temperatures. Phase-space densities consistent with quantum degeneracy are measured for temperatures in the range of 100 to 400 nK. At these high phase-space densities, diffraction of a probe laser beam is observed. Modeling shows that this diffraction is a sensitive indicator of the presence of a spatially localized condensate. Although measurements of the number of condensate atoms have not been performed, the measured phase-space densities are consistent with a majority of the atoms being in the condensate, for total trap numbers as high as 2{times}10{sup 5} atoms. For {sup 7}Li, the spin-triplet {ital s}-wave scattering length is known to be negative, corresponding to an attractive interatomic interaction. Previously, Bose-Einstein condensation was predicted not to occur in such a system.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.75.1687