EVIDENCE OF BOSE-EINSTEIN CONDENSATION IN AN ATOMIC GAS WITH ATTRACTIVE INTERACTIONS

Evidence for Bose-Einstein condensation of a gas of spin-polarized Li- 7 atoms is reported. Atoms confined to a permanent-magnet trap are las er cooled to 200 mu K and are then evaporatively cooled to lower tempe ratures. 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 bein g in the condensate,for total trap numbers as high as 2 X 10(5) atoms. For Li-7, the spin-triplet s-wave scattering length is known to be ne gative, corresponding to an attractive interatomic interaction. Previo usly, Bose-Einstein condensation was predicted not to occur in such a system.