arxiv: cond-mat/0306514 · v2 · pith:QSCLX4GJnew · submitted 2003-06-19 · ❄️ cond-mat.soft

No-soliton--soliton phase transition in a trapped one-dimensional Bose gas

Vanja Dunjko (1) , Christopher P. Herzog (2 , 3) , Yvan Castin (3) , Maxim Olshanii (1 , 3 , 4) ((1) University of Southern California , Los Angeles

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U.S.A. (2) Princeton University Princeton (3) Ecole Normale Sup\'erieure Paris France (4) ITAMP Cambridge U.S.A.)

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classification ❄️ cond-mat.soft

keywords condensationtemperaturecriticallimitphasethermodynamictransitionapproaches

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Following the experimental observation of bright matter-wave solitons [L. Khaykovich et al., Science v. 296, 1290 (2002); K. E. Strecker et al., Nature (London) v. 417, 150 (2002)], we develop a semi-phenomenological theory for soliton thermodynamics and find the condensation temperature. Under a modified thermodynamic limit, the condensate occupation at the critical temperature undergoes a sudden jump to a nonzero value, indicating a discontinuous phase transition. Treating the condensation as a diffusion over a barrier shows that the condensation time is exponentially long as one approaches the thermodynamic limit, and the longest near the critical temperature.

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No-soliton--soliton phase transition in a trapped one-dimensional Bose gas

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