Long-lived oscillations of an attractive polaron in a Bose gas
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We study the out-of-equilibrium dynamics of an attractively interacting impurity suddenly immersed with a nonzero initial velocity into a system of one-dimensional weakly interacting homogeneous bosons. We uncover and characterize different dynamical regimes in the parameter space. Especially interesting is the relaxation of a fast impurity with a mass close to or exceeding the critical one, where the impurity exhibits undamped temporal long-lived velocity oscillations before reaching a stationary state. The underlying mechanism is the transient localization of a boson depletion cloud near the impurity, that oscillates around the boson density peak situated at the impurity position. The lifetime of this oscillating state increases with the absolute value of the impurity-boson coupling. Cold atomic gases provide an ideal playground where this phenomenon can be probed.
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Cited by 2 Pith papers
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Driven dynamics of an attractive Bose polaron
An attractive Bose polaron in 1D under constant force shows drifted Bloch oscillations with sub-linear drift velocity scaling V_d ~ F^α (α<1) and non-monotonic oscillation amplitude.
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Effects of interaction range on the mean-field dynamics of Bose polarons
Finite-range interactions cause damped oscillatory impurity velocity relaxation in Bose polarons, with ion-atom potentials producing longer equilibration times and larger effective mass differences than local potentia...
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