Creating vortons and three-dimensional skyrmions from domain-wall annihilation with stretched vortices in Bose-Einstein condensates

Muneto Nitta; Kenichi Kasamatsu; Makoto Tsubota; Hiromitsu Takeuchi

doi:10.1103/PhysRevA.85.053639

Creating vortons and three-dimensional skyrmions from domain-wall annihilation with stretched vortices in Bose-Einstein condensates

Muneto Nitta, Kenichi Kasamatsu, Makoto Tsubota, Hiromitsu Takeuchi

Faculty of Business and Commerce

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

46 Citations (Scopus)

Abstract

We study a mechanism to create a vorton or three-dimensional skyrmion in phase-separated two-component BECs with the order parameters Ψ ₁ and Ψ ₂ of the two condensates. We consider a pair of a domain wall (brane) and an antidomain wall (antibrane) stretched by vortices (strings), where the Ψ ₂ component with a vortex winding is sandwiched by two domains of the Ψ ₁ component. The vortons appear when the domain wall pair annihilates. Experimentally, this can be realized by preparing the phase separation in the order Ψ ₁, Ψ ₂, and Ψ ₁ components, where the nodal plane of a dark soliton in Ψ ₁ component is filled with the Ψ ₂ component with vorticity. By selectively removing the filling Ψ ₂ component gradually with a resonant laser beam, the collision of the brane and antibrane can be made, creating vortons.

Original language	English
Article number	053639
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	85
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevA.85.053639
Publication status	Published - 2012 May 25

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.85.053639

Cite this

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title = "Creating vortons and three-dimensional skyrmions from domain-wall annihilation with stretched vortices in Bose-Einstein condensates",

abstract = "We study a mechanism to create a vorton or three-dimensional skyrmion in phase-separated two-component BECs with the order parameters Ψ 1 and Ψ 2 of the two condensates. We consider a pair of a domain wall (brane) and an antidomain wall (antibrane) stretched by vortices (strings), where the Ψ 2 component with a vortex winding is sandwiched by two domains of the Ψ 1 component. The vortons appear when the domain wall pair annihilates. Experimentally, this can be realized by preparing the phase separation in the order Ψ 1, Ψ 2, and Ψ 1 components, where the nodal plane of a dark soliton in Ψ 1 component is filled with the Ψ 2 component with vorticity. By selectively removing the filling Ψ 2 component gradually with a resonant laser beam, the collision of the brane and antibrane can be made, creating vortons.",

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AU - Nitta, Muneto

AU - Kasamatsu, Kenichi

AU - Tsubota, Makoto

AU - Takeuchi, Hiromitsu

PY - 2012/5/25

Y1 - 2012/5/25

N2 - We study a mechanism to create a vorton or three-dimensional skyrmion in phase-separated two-component BECs with the order parameters Ψ 1 and Ψ 2 of the two condensates. We consider a pair of a domain wall (brane) and an antidomain wall (antibrane) stretched by vortices (strings), where the Ψ 2 component with a vortex winding is sandwiched by two domains of the Ψ 1 component. The vortons appear when the domain wall pair annihilates. Experimentally, this can be realized by preparing the phase separation in the order Ψ 1, Ψ 2, and Ψ 1 components, where the nodal plane of a dark soliton in Ψ 1 component is filled with the Ψ 2 component with vorticity. By selectively removing the filling Ψ 2 component gradually with a resonant laser beam, the collision of the brane and antibrane can be made, creating vortons.

AB - We study a mechanism to create a vorton or three-dimensional skyrmion in phase-separated two-component BECs with the order parameters Ψ 1 and Ψ 2 of the two condensates. We consider a pair of a domain wall (brane) and an antidomain wall (antibrane) stretched by vortices (strings), where the Ψ 2 component with a vortex winding is sandwiched by two domains of the Ψ 1 component. The vortons appear when the domain wall pair annihilates. Experimentally, this can be realized by preparing the phase separation in the order Ψ 1, Ψ 2, and Ψ 1 components, where the nodal plane of a dark soliton in Ψ 1 component is filled with the Ψ 2 component with vorticity. By selectively removing the filling Ψ 2 component gradually with a resonant laser beam, the collision of the brane and antibrane can be made, creating vortons.

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Creating vortons and three-dimensional skyrmions from domain-wall annihilation with stretched vortices in Bose-Einstein condensates

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