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Three-dimensional Gross-Pitaevskii solitary waves in optical lattices: stabilization using the artificial quartic kinetic energy induced by lattice shaking

In this Letter, we show that a three-dimensional Bose-Einstein solitary wave can become stable if the dispersion law is changed from quadratic to quartic. We suggest a way to realize the quartic dispersion, using shaken optical lattices. Estimates show that the resulting solitary waves can occupy as little as $\sim 1/20$-th of the Brillouin zone in each of the three directions and contain as many as $N = 10^{3}$ atoms, thus representing a \textit{fully mobile} macroscopic three-dimensional object.

preprint2015arXivOpen access
M. OlshaniiS. ChoiV. DunjkoA. E. FeiguinH. PerrinJ. RuhlD. Aveline
cond-mat.quant-gas
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M. OlshaniiS. ChoiV. DunjkoA. E. FeiguinH. PerrinJ. RuhlD. Aveline

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