G. Wunner, H. Cartarius, T. Fabčič, P. Köberle, J. Main, T. Schwidder
Published 2008-09-11Version 1
The motto of this paper is: Let's face Bose-Einstein condensation through nonlinear dynamics. We do this by choosing variational forms of the condensate wave functions (of given symmetry classes), which convert the Bose-Einstein condensates via the time-dependent Gross-Pitaevskii equation into Hamiltonian systems that can be studied using the methods of nonlinear dynamics. We consider in particular cold quantum gases where long-range interactions between the neutral atoms are present, in addition to the conventional short-range contact interaction, viz. gravity-like interactions, and dipole-dipole interactions. The results obtained serve as a useful guide in the search for nonlinear dynamics effects in numerically exact quantum calculations for Bose-Einstein condensates. A main result is the prediction of the existence of stable islands as well as chaotic regions for excited states of dipolar condensates, which could be checked experimentally.
Comments: 10 pages, 5 figures, Proceedings of the "7th International Summer School/Conference Llet's Face Chaos Through Nonlinear Dynamics", CAMTP, University of Maribor, Slovenia, 29 June - 13 July 2008
Journal: AIP Conf. Proc., Vol. 1076, pp. 282-291 (2008)
Dynamics and stability of Bose-Einstein condensates with attractive 1/r interaction
Spectroscopy of Superradiant scattering from an array of Bose-Einstein Condensates
Entanglement generation in quantum networks of Bose-Einstein condensates
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