Numerical simulations show that laser stirring parameters can be varied to deterministically nucleate stable infilled vortices with tunable high topological charge in an immiscible Rb-K BEC, which then exhibit charge-dependent precession and breathing modes.
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cond-mat.quant-gas 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
A coupled-channel framework based on Bogoliubov modes efficiently describes spinor BEC dynamics near spin-spatial resonances, classifying resonant excitations and showing that beyond-quadratic terms are needed for long-time behavior.
An impurity in a 1D quantum droplet localizes with a central density hump under attractive interactions and phase-separates under repulsive ones, while post-release expansion is suppressed only by strong attraction.
citing papers explorer
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Deterministic Nucleation and Dynamics of Infilled Multiply-Charged Vortices in an Immiscible $^{87}\mathrm{Rb}$-$^{41}\mathrm{K}$ Mixture
Numerical simulations show that laser stirring parameters can be varied to deterministically nucleate stable infilled vortices with tunable high topological charge in an immiscible Rb-K BEC, which then exhibit charge-dependent precession and breathing modes.
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Dynamics of spinor Bose-Einstein condensates close to spin-spatial resonances
A coupled-channel framework based on Bogoliubov modes efficiently describes spinor BEC dynamics near spin-spatial resonances, classifying resonant excitations and showing that beyond-quadratic terms are needed for long-time behavior.
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Phases and dynamics of an impurity immersed in one-dimensional quantum droplets
An impurity in a 1D quantum droplet localizes with a central density hump under attractive interactions and phase-separates under repulsive ones, while post-release expansion is suppressed only by strong attraction.