Formation and propagation of matter-wave soliton trains
TLDR
The formation of bright solitons of 7Li atoms in a quasi-one-dimensional optical trap is reported, by magnetically tuning the interactions in a stable Bose–Einstein condensate from repulsive to attractive.Abstract:
Attraction between the atoms of a Bose–Einstein condensate renders it unstable to collapse, although a condensate with a limited number of atoms1 can be stabilized2 by confinement in an atom trap. However, beyond this number the condensate collapses3,4,5. Condensates constrained to one-dimensional motion with attractive interactions are predicted to form stable solitons, in which the attractive forces exactly compensate for wave-packet dispersion1. Here we report the formation of bright solitons of 7Li atoms in a quasi-one-dimensional optical trap, by magnetically tuning the interactions in a stable Bose–Einstein condensate from repulsive to attractive. The solitons are set in motion by offsetting the optical potential, and are observed to propagate in the potential for many oscillatory cycles without spreading. We observe a soliton train, containing many solitons; repulsive interactions between neighbouring solitons are inferred from their motion.read more
Citations
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Feshbach Resonances in Ultracold Gases
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Exact Theory of Two-dimensional Self-focusing and One-dimensional Self-modulation of Waves in Nonlinear Media
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Observation of Feshbach resonances in a Bose–Einstein condensate
Shin Inouye,M. R. Andrews,M. R. Andrews,J. Stenger,H.-J. Miesner,Dan Stamper-Kurn,Wolfgang Ketterle +6 more
TL;DR: In this paper, two such resonances have been observed in optically trapped Bose-Einstein condensates of sodium atoms by varying an external magnetic field, which gave rise to enhanced inelastic processes and a dispersive variation of the scattering length by a factor of over ten.