Hydrodynamic VS collisionless dynamics of a 1D harmonically trapped Bose   gas

Giulia De Rosi; Sandro Stringari

arXiv:1608.08417·cond-mat.quant-gas·December 8, 2016

Hydrodynamic VS collisionless dynamics of a 1D harmonically trapped Bose gas

Giulia De Rosi, Sandro Stringari

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Abstract

By using a sum rule approach we investigate the transition between the hydrodynamic and the collisionless regime of the collective modes in a 1D harmonically trapped Bose gas. Both the weakly interacting gas and the Tonks-Girardeau limits are considered. We predict that the excitation of the dipole compression mode is characterized, in the high temperature collisionless regime, by a beating signal of two different frequencies ( $ω_{z}$ and $3 ω_{z}$ ) while, in the high temperature collisional regime, the excitation consists of a single frequency ( $7 ω_{z}$ ). This behaviour differs from the case of the lowest breathing mode whose excitation consists of a single frequency ( $2 ω_{z}$ ) in both regimes. Our predictions for the dipole compression mode open promising perspectives for the experimental investigation of collisional effects in 1D configurations.

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