부산대학교 도서관

One-dimensional Bose gases with contact repulsive interactions are characterized by the presence of infinite-lifetime quasiparticles whose momenta are called the `rapidities'. Here we develop a probe of the local rapidity distribution, based on the fact that rapidities are the asymptotic momenta of the particles after a very long one-dimensional expansion. This is done by performing an expansion of a selected slice of the gas. As a proof of concept, we apply this to a cloud at equilibrium in a trap. While for realistic expansion times the asymptotic regime is barely reached, we show that the expansion dynamics follows the hydrodynamic scaling such that one can use the theory of Generalized Hydrodynamics to analyze the expansion. Our data are in good agreement with the theory.