Stability of vortices in exciton-polariton condensates with spin–orbital-angular-momentum coupling

The existence and dynamics of stable quantized vortices is an important subject of quantum many-body physics. Spin–orbital-angular-momentum coupling (SOAMC), a special type of spin–orbit coupling, has been experimentally achieved to create vortices in atomic Bose–Einstein condensates (BEC). Here, we...

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Published inNew journal of physics Vol. 26; no. 4; pp. 43025 - 43033
Main Authors Yang, Xin-Xin, Zhang, Wei, Niu, Zhen-Xia
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.04.2024
Subjects
Angular momentum
Atoms & subatomic particles
Bose-Einstein condensates
Configurations
exciton-polariton condensate
Excitons
Lasers
Lattices
Momentum
Phase transitions
Physics
Polaritons
Spin dynamics
Spin-orbit interactions
spin–orbital-angular-momentum coupling
Vortices
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Abstract The existence and dynamics of stable quantized vortices is an important subject of quantum many-body physics. Spin–orbital-angular-momentum coupling (SOAMC), a special type of spin–orbit coupling, has been experimentally achieved to create vortices in atomic Bose–Einstein condensates (BEC). Here, we generalize the concept of SOAMC to a two-component polariton BEC and analyze the emergence and configuration of vortices under a finite-size circular pumping beam. We find that the regular configuration of vortex lattices induced by a finite-size circular pump is significantly distorted by the spatially dependent Raman coupling of SOAMC, even in the presence of a repulsive polariton interaction which can assist the forming of stable vortex configuration. Meanwhile, a pair of vortices induced by SOAMC located at the center of polariton cloud remains stable. When the Raman coupling is sufficiently strong and interaction is weak, the vortices spiraling in from the edge of polariton cloud will disrupt the polariton BEC.
AbstractList The existence and dynamics of stable quantized vortices is an important subject of quantum many-body physics. Spin–orbital-angular-momentum coupling (SOAMC), a special type of spin–orbit coupling, has been experimentally achieved to create vortices in atomic Bose–Einstein condensates (BEC). Here, we generalize the concept of SOAMC to a two-component polariton BEC and analyze the emergence and configuration of vortices under a finite-size circular pumping beam. We find that the regular configuration of vortex lattices induced by a finite-size circular pump is significantly distorted by the spatially dependent Raman coupling of SOAMC, even in the presence of a repulsive polariton interaction which can assist the forming of stable vortex configuration. Meanwhile, a pair of vortices induced by SOAMC located at the center of polariton cloud remains stable. When the Raman coupling is sufficiently strong and interaction is weak, the vortices spiraling in from the edge of polariton cloud will disrupt the polariton BEC.
Author Yang, Xin-Xin
Zhang, Wei
Niu, Zhen-Xia
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Snippet The existence and dynamics of stable quantized vortices is an important subject of quantum many-body physics. Spin–orbital-angular-momentum coupling (SOAMC), a...
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SubjectTerms Angular momentum
Atoms & subatomic particles
Bose-Einstein condensates
Configurations
exciton-polariton condensate
Excitons
Lasers
Lattices
Momentum
Phase transitions
Physics
Polaritons
Spin dynamics
Spin-orbit interactions
spin–orbital-angular-momentum coupling
Vortices
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Title Stability of vortices in exciton-polariton condensates with spin–orbital-angular-momentum coupling
URI https://iopscience.iop.org/article/10.1088/1367-2630/ad4089
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