Quench Dynamics of Thermal Bose Gases Across Wide and Narrow Feshbach

Abstract

Using high-temperature virial expansion, we study the quench dynamics of the thermal Bose gases near a wide, narrow, and intermediate Feshbach resonance. Our results show that the shallow bound state near Feshbach resonance leads to interesting phenomena. Near the wide Feshbach resonance, the long-time n k oscillates when the scattering length as is quenched from zero to large but with finite positive values. The oscillation frequency ω=E b/ with E b being the binding energy. When as is quenched to infinity or negative value, the oscillation vanishes. Near the narrow Feshbach resonance, the interaction should be characterized by a two-channel model. When the background scattering length a bgλ, there is an oscillation in the long-time dynamics, and the frequency is determined by the energy of the shallow bound state in the open channel. When a bg<0 or 0<a bgλ, there is no shallow bound state in the open channel, hence no long-time oscillation. We check our conclusion using some realistic systems, and the results are consistent with our conclusion.