Probing the Excitations of a Lieb-Liniger Gas from Weak to Strong Coupling
arXiv:1505.08152 · doi:10.1103/PhysRevLett.115.085301
Abstract
We probe the excitation spectrum of an ultracold one-dimensional Bose gas of Cesium atoms with repulsive contact interaction that we tune from the weakly to the strongly interacting regime via a magnetic Feshbach resonance. The dynamical structure factor, experimentally obtained using Bragg spectroscopy, is compared to integrability-based calculations valid at arbitrary interactions and finite temperatures. Our results unequivocally underly the fact that hole-like excitations, which have no counterpart in higher dimensions, actively shape the dynamical response of the gas.
9 pages, 10 figures