Capture dynamics of ultracold atoms in the presence of an impurity ion.

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Bibliographic Details
Title: Capture dynamics of ultracold atoms in the presence of an impurity ion.
Authors: J M Schurer1,2 jschurer@physnet.uni-hamburg.de, A Negretti1,2, P Schmelcher1,2
Source: New Journal of Physics. Aug2015, Vol. 17 Issue 8, p1-1. 1p.
Subjects: Impurity-dislocation interactions, Ultracold molecules, Bosons, Transmutation (Chemistry), Analytical mechanics
Abstract: We explore the quantum dynamics of a one-dimensional trapped ultracold ensemble of bosonic atoms triggered by the sudden creation of a single ion. The numerical simulations are performed by means of the ab initio multiconfiguration time-dependent Hartree method for bosons which takes into account all correlations. The dynamics is analyzed via a cluster expansion approach, adapted to bosonic systems of fixed particle number, which provides a comprehensive understanding of the occurring many-body processes. After a transient during which the atomic ensemble separates into fractions which are unbound and bound with respect to the ion, we observe an oscillation in the atomic density which we attribute to the additional length and energy scale induced by the attractive long-range atom–ion interaction. This oscillation is shown to be the main source of spatial coherence and population transfer between the bound and the unbound atomic fraction. Moreover, the dynamics exhibits collapse and revival behavior caused by the dynamical build-up of two-particle correlations demonstrating that a beyond mean-field description is indispensable. [ABSTRACT FROM AUTHOR]
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Database: Engineering Source
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Abstract:We explore the quantum dynamics of a one-dimensional trapped ultracold ensemble of bosonic atoms triggered by the sudden creation of a single ion. The numerical simulations are performed by means of the ab initio multiconfiguration time-dependent Hartree method for bosons which takes into account all correlations. The dynamics is analyzed via a cluster expansion approach, adapted to bosonic systems of fixed particle number, which provides a comprehensive understanding of the occurring many-body processes. After a transient during which the atomic ensemble separates into fractions which are unbound and bound with respect to the ion, we observe an oscillation in the atomic density which we attribute to the additional length and energy scale induced by the attractive long-range atom–ion interaction. This oscillation is shown to be the main source of spatial coherence and population transfer between the bound and the unbound atomic fraction. Moreover, the dynamics exhibits collapse and revival behavior caused by the dynamical build-up of two-particle correlations demonstrating that a beyond mean-field description is indispensable. [ABSTRACT FROM AUTHOR]
ISSN:13672630
DOI:10.1088/1367-2630/17/8/083024