Dissociation of one-dimensional matter-wave breathers due to quantum many-body effects

2); (2) ITMO Univ.; (3) Rice Univ. (4) UMas Boston); Boris A. Malomed (1; Maxim Olshanii (4) ((1) Tel Aviv Univ.; Randall G. Hulet (3); St. Petersburg; Vladimir A. Yurovsky (1)

arxiv: 1706.07114 · v2 · pith:WHEI64TBnew · submitted 2017-06-21 · ❄️ cond-mat.quant-gas · nlin.PS· physics.atom-ph· quant-ph

Dissociation of one-dimensional matter-wave breathers due to quantum many-body effects

Vladimir A. Yurovsky (1) , Boris A. Malomed (1 , 2) , Randall G. Hulet (3) , Maxim Olshanii (4) ((1) Tel Aviv Univ. , (2) ITMO Univ. , St. Petersburg , (3) Rice Univ. (4) UMas Boston) This is my paper

classification ❄️ cond-mat.quant-gas nlin.PSphysics.atom-phquant-ph

keywords dissociationmany-bodyquantumbreatherseffectsfindone-dimensionalanalysis

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We use the ab initio Bethe Ansatz dynamics to predict the dissociation of one-dimensional cold-atom breathers that are created by a quench from a fundamental soliton. We find that the dissociation is a robust quantum many-body effect, while in the mean-field (MF) limit the dissociation is forbidden by the integrability of the underlying nonlinear Schr\"{o}dinger equation. The analysis demonstrates the possibility to observe quantum many-body effects without leaving the MF range of experimental parameters. We find that the dissociation time is of the order of a few seconds for a typical atomic-soliton setting.

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Dissociation of one-dimensional matter-wave breathers due to quantum many-body effects

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