Nonlinear Dynamics of a Bose-Einstein Condensate in a Magnetic Waveguide
- 24 July 2003
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 91 (4) , 040402
- https://doi.org/10.1103/physrevlett.91.040402
Abstract
We have studied the internal and external dynamics of a Bose-Einstein condensate in an anharmonic magnetic waveguide. An oscillating condensate experiences a strong coupling between the center of mass motion and the internal collective modes. Because of the anharmonicity of the magnetic potential, not only the center of mass motion shows harmonic frequency generation, but also the internal dynamics exhibit nonlinear frequency mixing. Thereby, the condensate shows shape oscillations with an extremely large change in the aspect ratio of up to a factor of 10. We describe the data with a theoretical model to high accuracy. For strong excitations we test the experimental data for indications of a chaotic behavior.Keywords
All Related Versions
This publication has 21 references indexed in Scilit:
- Bose-Einstein Condensation in a Surface MicrotrapPhysical Review Letters, 2001
- Bose–Einstein condensation on a microelectronic chipNature, 2001
- Beam Splitter for Guided AtomsPhysical Review Letters, 2000
- Propagation of Cold Atoms along a Miniature Magnetic GuidePhysical Review Letters, 2000
- Guiding Neutral Atoms Around Curves with Lithographically Patterned Current-Carrying WiresPhysical Review Letters, 1999
- Atomic Deflection Using an Adaptive Microelectromagnet MirrorPhysical Review Letters, 1998
- Atom Wave Interferometry with Diffraction Gratings of LightPhysical Review Letters, 1995
- Harmonic-Potential Theorem: Implications for Approximate Many-Body TheoriesPhysical Review Letters, 1994
- Atomic interferometry using stimulated Raman transitionsPhysical Review Letters, 1991
- Optical Ramsey spectroscopy in a rotating frame: Sagnac effect in a matter-wave interferometerPhysical Review Letters, 1991