Onset time for energy oscillations in a two-dimensional trapped Bose gas excited by a red laser potential

Abstract

We explore the energy dynamics of a two dimensional (2D) harmonically trapped Bose-Einstein condensate inside a box potential, excited by a moving red-detuned laser potential (RDLP). For an RDLP velocity v less than a critical value vc, energy oscillations are observed to begin simultaneously with the motion of the RDLP. For v > vc, these oscillations are delayed through a transient in the energy. At the end of the delay time tons, the energy oscillations are regenerated again, and tons is found to depend on v through universal relations for two cases: one for an RDLP depth sufficient to break off a BEC fragment, another for a depth insufficient to split the BEC. In the case of splitting, tons exactly equals the time it takes the BEC fragment (dragged by the RDLP trough) to reach the hard wall of the box potential.