Thermalization, condensate growth, and defect formation in an out-of-equilibrium Bose gas

D. J. Brown; A. V.H. McPhail; D. H. White; D. Baillie; S. K. Ruddell; M. D. Hoogerland

doi:10.1103/PhysRevA.98.013606

Thermalization, condensate growth, and defect formation in an out-of-equilibrium Bose gas

D. J. Brown, A. V.H. McPhail, D. H. White, D. Baillie, S. K. Ruddell, M. D. Hoogerland

Waseda Research Institute for Science and Engineering

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We experimentally and numerically investigate thermalization processes of a trapped Rb87 Bose gas, initially prepared in a nonequilibrium state through partial Bragg diffraction of a Bose-Einstein condensate (BEC). The system evolves in a Gaussian potential, where we observe the destruction of the BEC due to collisions and subsequent growth of a new condensed fraction in an oscillating reference frame. Furthermore, we occasionally observe the presence of defects, which we identify as gray solitons. We simulate the evolution of our system using the truncated Wigner method and compare the outcomes with our experimental results.

Original language	English
Article number	013606
Journal	Physical Review A
Volume	98
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.98.013606
Publication status	Published - 2018 Jul 9

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.98.013606

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title = "Thermalization, condensate growth, and defect formation in an out-of-equilibrium Bose gas",

abstract = "We experimentally and numerically investigate thermalization processes of a trapped Rb87 Bose gas, initially prepared in a nonequilibrium state through partial Bragg diffraction of a Bose-Einstein condensate (BEC). The system evolves in a Gaussian potential, where we observe the destruction of the BEC due to collisions and subsequent growth of a new condensed fraction in an oscillating reference frame. Furthermore, we occasionally observe the presence of defects, which we identify as gray solitons. We simulate the evolution of our system using the truncated Wigner method and compare the outcomes with our experimental results.",

author = "Brown, {D. J.} and McPhail, {A. V.H.} and White, {D. H.} and D. Baillie and Ruddell, {S. K.} and Hoogerland, {M. D.}",

note = "Funding Information: We would like to thank P. B. Blakie, J. G. Cosme, and J. Brand for stimulating discussions. This research was supported by the Marsden Fund, administered by the Royal Society of New Zealand. D.B. acknowledges the contribution of NZ eScience Infrastructure (NeSI) high-performance computing facilities. Publisher Copyright: {\textcopyright} 2018 American Physical Society.",

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AU - Brown, D. J.

AU - McPhail, A. V.H.

AU - White, D. H.

AU - Baillie, D.

AU - Ruddell, S. K.

AU - Hoogerland, M. D.

N1 - Funding Information: We would like to thank P. B. Blakie, J. G. Cosme, and J. Brand for stimulating discussions. This research was supported by the Marsden Fund, administered by the Royal Society of New Zealand. D.B. acknowledges the contribution of NZ eScience Infrastructure (NeSI) high-performance computing facilities. Publisher Copyright: © 2018 American Physical Society.

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Y1 - 2018/7/9

N2 - We experimentally and numerically investigate thermalization processes of a trapped Rb87 Bose gas, initially prepared in a nonequilibrium state through partial Bragg diffraction of a Bose-Einstein condensate (BEC). The system evolves in a Gaussian potential, where we observe the destruction of the BEC due to collisions and subsequent growth of a new condensed fraction in an oscillating reference frame. Furthermore, we occasionally observe the presence of defects, which we identify as gray solitons. We simulate the evolution of our system using the truncated Wigner method and compare the outcomes with our experimental results.

AB - We experimentally and numerically investigate thermalization processes of a trapped Rb87 Bose gas, initially prepared in a nonequilibrium state through partial Bragg diffraction of a Bose-Einstein condensate (BEC). The system evolves in a Gaussian potential, where we observe the destruction of the BEC due to collisions and subsequent growth of a new condensed fraction in an oscillating reference frame. Furthermore, we occasionally observe the presence of defects, which we identify as gray solitons. We simulate the evolution of our system using the truncated Wigner method and compare the outcomes with our experimental results.

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Thermalization, condensate growth, and defect formation in an out-of-equilibrium Bose gas

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