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Rydberg-Induced Topological Solitons in Three-Dimensional Rotation Spin–Orbit-Coupled Bose–Einstein Condensates

Yang Wang, Jinlong Cui, Hongkai Zhang, Yuan Zhao, Si-Liu Xu, Qin Zhou

2024Chinese Physics Letters16 citationsDOI

Abstract

Abstract We present a novel approach for generating stable three-dimensional (3D) spatiotemporal solitons (SSs) within a rotating Bose–Einstein condensate, incorporating spin–orbit coupling (SOC), a weakly anharmonic potential and cold Rydberg atoms. This intricate system facilitates the emergence of quasi-stable 3D SSs with topological charges | m | ≤ 3 in two spinor components, potentially exhibiting diverse spatial configurations. Our findings reveal that the Rydberg long-range interaction, spin–orbit coupling, and rotational angular frequency exert significant influence on the domains of existence and stability of these solitons. Notably, the Rydberg interaction contributes to a reduction in the norm of topological solitons, while the SOC plays a key role in stabilizing the SSs with finite topological charges. This research of SSs exhibits potential applications in precision measurement, quantum information processing, and other advanced technologies.

Topics & Concepts

PhysicsBose–Einstein condensateRotation (mathematics)Rydberg formulaSpin (aerodynamics)Orbit (dynamics)Quantum mechanicsQuantum electrodynamicsThermodynamicsAerospace engineeringMathematicsIonizationIonEngineeringGeometryCold Atom Physics and Bose-Einstein CondensatesStrong Light-Matter InteractionsQuantum, superfluid, helium dynamics
Rydberg-Induced Topological Solitons in Three-Dimensional Rotation Spin–Orbit-Coupled Bose–Einstein Condensates | Litcius