Coherent atomic soliton molecules for matter-wave switching

Chenyun Yin; Natalia G. Berloff; V\'ictor M. P\'erez-Garc\'ia; David; Novoa; Alicia V. Carpentier; Humberto Michinel

arXiv:1105.6352·nlin.PS·June 1, 2011

Coherent atomic soliton molecules for matter-wave switching

Chenyun Yin, Natalia G. Berloff, V\'ictor M. P\'erez-Garc\'ia, David, Novoa, Alicia V. Carpentier, Humberto Michinel

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TL;DR

This paper explores the formation and dynamics of coherent atomic soliton molecules in multicomponent Bose-Einstein condensates, proposing their potential use in matter-wave switching devices.

Contribution

It introduces a new class of matter-wave molecules formed by dark-bright vector solitons and analyzes their potential for matter-wave switching applications.

Findings

01

Identification of bound states of vector solitons without scalar counterparts

02

Analysis of the dynamics of dark-bright vector solitons in 2D BECs

03

Proposal of matter-wave switcher design using these structures

Abstract

We discuss the dynamics of interacting dark-bright two-dimensional vector solitons in multicomponent immiscible bulk Bose-Einstein condensates. We describe matter-wave molecules without a scalar counterpart that can be seen as bound states of vector objects. We also analyze the possibility of using these structures as building blocks for the design of matter-wave switchers.

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