Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates

Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates

Reconnections and interactions of filamentary coherent structures play a fundamental role in the dynamics of fluids, redistributing energy and helicity among the length scales and inducing fine-scale turbulent mixing. Unlike ordinary fluids, where vorticity is a continuous field, in quantum fluids v...

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Main Authors: Simone Serafini, Luca Galantucci, Elena Iseni, Tom Bienaimé, Russell N. Bisset, Carlo F. Barenghi, Franco Dalfovo, Giacomo Lamporesi, Gabriele Ferrari
Format: Article
Language:English
Published: American Physical Society 2017-05-01
Series:Physical Review X
Online Access:http://doi.org/10.1103/PhysRevX.7.021031
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spelling doaj-be6e934b845d4555a3cbda3db32a077e2020-11-24T22:25:21ZengAmerican Physical SocietyPhysical Review X2160-33082017-05-017202103110.1103/PhysRevX.7.021031Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein CondensatesSimone SerafiniLuca GalantucciElena IseniTom BienaiméRussell N. BissetCarlo F. BarenghiFranco DalfovoGiacomo LamporesiGabriele FerrariReconnections and interactions of filamentary coherent structures play a fundamental role in the dynamics of fluids, redistributing energy and helicity among the length scales and inducing fine-scale turbulent mixing. Unlike ordinary fluids, where vorticity is a continuous field, in quantum fluids vorticity is concentrated into discrete (quantized) vortex lines turning vortex reconnections into isolated events, making it conceptually easier to study. Here, we report experimental and numerical observations of three-dimensional quantum vortex interactions in a cigar-shaped atomic Bose-Einstein condensate. In addition to standard reconnections, already numerically and experimentally observed in homogeneous systems away from boundaries, we show that double reconnections, rebounds, and ejections can also occur as a consequence of the nonhomogeneous, confined nature of the system.http://doi.org/10.1103/PhysRevX.7.021031
collection DOAJ
language English
format Article
sources DOAJ
author Simone Serafini
Luca Galantucci
Elena Iseni
Tom Bienaimé
Russell N. Bisset
Carlo F. Barenghi
Franco Dalfovo
Giacomo Lamporesi
Gabriele Ferrari
spellingShingle Simone Serafini
Luca Galantucci
Elena Iseni
Tom Bienaimé
Russell N. Bisset
Carlo F. Barenghi
Franco Dalfovo
Giacomo Lamporesi
Gabriele Ferrari
Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
Physical Review X
author_facet Simone Serafini
Luca Galantucci
Elena Iseni
Tom Bienaimé
Russell N. Bisset
Carlo F. Barenghi
Franco Dalfovo
Giacomo Lamporesi
Gabriele Ferrari
author_sort Simone Serafini
title Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
title_short Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
title_full Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
title_fullStr Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
title_full_unstemmed Vortex Reconnections and Rebounds in Trapped Atomic Bose-Einstein Condensates
title_sort vortex reconnections and rebounds in trapped atomic bose-einstein condensates
publisher American Physical Society
series Physical Review X
issn 2160-3308
publishDate 2017-05-01
description Reconnections and interactions of filamentary coherent structures play a fundamental role in the dynamics of fluids, redistributing energy and helicity among the length scales and inducing fine-scale turbulent mixing. Unlike ordinary fluids, where vorticity is a continuous field, in quantum fluids vorticity is concentrated into discrete (quantized) vortex lines turning vortex reconnections into isolated events, making it conceptually easier to study. Here, we report experimental and numerical observations of three-dimensional quantum vortex interactions in a cigar-shaped atomic Bose-Einstein condensate. In addition to standard reconnections, already numerically and experimentally observed in homogeneous systems away from boundaries, we show that double reconnections, rebounds, and ejections can also occur as a consequence of the nonhomogeneous, confined nature of the system.
url http://doi.org/10.1103/PhysRevX.7.021031
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