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Atom loss and the formation of a molecular Bose-Einstein condensate by Feshbach resonance | V. A. Yurovsky
; A. Ben-Reuven
; P. S. Julienne
; C. J. Williams
; | Date: |
1 Jun 2000 | Journal: | Phys. Rev. A, 62 (2000) 043605 | Subject: | cond-mat | Affiliation: | School of Chemistry, Tel Aviv University, Tel Aviv, Israel) ( Atomic Physics Division, NIST, Gaithersburg, USA | Abstract: | In experiments conducted recently at MIT on Na Bose-Einstein condensates [S. Inouye et al, Nature 392, 151 (1998); J. Stenger et al, Phys. Rev. Lett. 82, 2422 (1999)], large loss rates were observed when a time-varying magnetic field was used to tune a molecular Feshbach resonance state near the state of a pair of atoms in the condensate. A collisional deactivation mechanism affecting a temporarily formed molecular condensate [see V. A. Yurovsky, A. Ben-Reuven, P. S. Julienne and C. J. Williams, Phys. Rev. A 60, R765 (1999)], studied here in more detail, accounts for the results of the slow-sweep experiments. A best fit to the MIT data yields a rate coefficient for deactivating atom-molecule collisions of 1.6e-10 cm**3/s. In the case of the fast sweep experiment, a study is carried out of the combined effect of two competing mechanisms, the three-atom (atom-molecule) or four-atom (molecule-molecule) collisional deactivation vs. a process of two-atom trap-state excitation by curve crossing [F. H. Mies, P. S. Julienne, and E. Tiesinga, Phys. Rev. A 61, 022721 (2000)]. It is shown that both mechanisms contribute to the loss comparably and nonadditively. | Source: | arXiv, cond-mat/0006017 | Services: | Forum | Review | PDF | Favorites |
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