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Coherent control of the self-trapping transition

M. Holthaus and S. Stenholm
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M. Holthaus: Carl von Ossietzky Universität, Fachbereich Physik, 26111 Oldenburg, Germany
S. Stenholm: Physics Department, Royal Institute of Technology, Lindstedtsvägen 24, 10044 Stockholm, Sweden

The European Physical Journal B: Condensed Matter and Complex Systems, 2001, vol. 20, issue 3, 451-467

Abstract: Abstract: We discuss the dynamics of two weakly coupled Bose-Einstein condensates in a double-well potential, contrasting the mean-field picture to the exact N-particle evolution. On the mean-field level, a self-trapping transition occurs when the scaled interaction strength exceeds a critical value; this transition essentially persists in small condensates comprising about 1000 atoms. When the double-well is modulated periodically in time, Floquet-type solutions to the nonlinear Schrödinger equation take over the role of the stationary mean-field states. These nonlinear Floquet states can be classified as “unbalanced” or “balanced”, depending on whether or not they entail long-time confinement of most particles to one well. Since the emergence of unbalanced Floquet states depends on the amplitude and frequency of the modulating force, we predict that the onset of self-trapping can efficiently be controlled by varying these parameters. This prediction is verified numerically by both mean-field and N-particle calculations.

Keywords: PACS. 03.75.Fi Phase coherent atomic ensembles; quantum condensation phenomena – 05.30.Jp Boson systems – 32.80.Pj Optical cooling of atoms; trapping (search for similar items in EconPapers)
Date: 2001
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DOI: 10.1007/PL00011106

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