Expansion dynamics of a spherical Bose–Einstein condensate

We experimentally and theoretically observe the expansion behaviors of a spherical Bose–Einstein condensate. A rubidium condensate is produced in an isotropic optical dipole trap with an asphericity of 0.037. We measure the variation of the condensate size in the expansion process after switching of...

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Bibliographic Details
Published in:Chinese physics B 2019-10, Vol.28 (10), p.106701
Main Authors: Li, Rui-Zong, Gao, Tian-You, Zhang, Dong-Fang, Peng, Shi-Guo, Kong, Ling-Ran, Shen, Xing, Jiang, Kai-Jun
Format: Article
Language:English
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Summary:We experimentally and theoretically observe the expansion behaviors of a spherical Bose–Einstein condensate. A rubidium condensate is produced in an isotropic optical dipole trap with an asphericity of 0.037. We measure the variation of the condensate size in the expansion process after switching off the trap. The free expansion of the condensate is isotropic, which is different from that of the condensate usually produced in the anisotropic trap. We derive an analytic solution of the expansion behavior based on the spherical symmetry, allowing a quantitative comparison with the experimental measurement. The interaction energy of the condensate is gradually converted into the kinetic energy during the expansion and after a long time the kinetic energy saturates at a constant value. We obtain the interaction energy of the condensate in the trap by probing the long-time expansion velocity, which agrees with the theoretical calculation. This work paves a way to explore novel quantum states of ultracold gases with the spherical symmetry.
ISSN:1674-1056
DOI:10.1088/1674-1056/ab4177