Abstract
We unravel the many-body dynamics of a harmonically trapped impurity colliding with a bosonic medium confined in a double-well upon quenching the initially displaced harmonic trap to the center of the double-well. We reveal that the emerging correlation dynamics crucially depends on the impurity-medium interaction strength allowing for a classification into different dynamical response regimes. For strong attractive impurity-medium couplings the impurity is bound to the bosonic bath, while for intermediate attractions it undergoes an effective tunneling. In the case of weak attractive or repulsive couplings the impurity penetrates the bosonic bath and performs a dissipative oscillatory motion. Further increasing the impurity-bath repulsion results in the pinning of the impurity between the density peaks of the bosonic medium, a phenomenon that is associated with a strong impurity-medium entanglement. For strong repulsions the impurity is totally reflected by the bosonic medium. To unravel the underlying microscopic excitation processes accompanying the dynamics we employ an effective potential picture. We extend our results to the case of two bosonic impurities and demonstrate the existence of a qualitatively similar impurity dynamics.
Highlights
Due to their extraordinary controllability, ultracold atoms have been used to study various properties of many-body quantum systems
We reveal that the emerging correlation dynamics crucially depends on the impurity-medium interaction strength allowing for a classification into different dynamical response regimes
We have investigated the dynamical behavior of bosonic impurities colliding with a Bose-Einstein condensate (BEC) trapped in a double well
Summary
Due to their extraordinary controllability, ultracold atoms have been used to study various properties of many-body quantum systems. To trace the nonequilibrium quantum dynamics, we employ the multilayer multiconfiguration time-dependent Hartree method for atomic mixtures (ML-MCTDHX) [55,56,57], which is capable of capturing all relevant interspecies and intraspecies correlations To address these aspects we consider a harmonically trapped impurity which is coupled via a contact interaction potential to a bosonic environment confined in a double well. Extending our results to the twoimpurity case we identify five qualitatively similar response regimes as compared to the single-impurity scenario In this case we explicate the involvement of single- and two-particle excitation processes of the impurities within the effective potential [61] and reveal the interplay of impurity-impurity induced correlations for different intraspecies interactions of the bath. Appendix E demonstrates the collisional dynamics when considering a bosonic bath in a triple well
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