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SCIPOST PHYSICS CORE
Volume 5, Issue 1, Pages -Publisher
SCIPOST FOUNDATION
DOI: 10.21468/SciPostPhysCore.5.1.015
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This study investigates the effects of spatial curvature on an atomic Bose-Einstein condensate confined in an elliptical waveguide. The results show that the system undergoes a quantum phase transition from a two-peak configuration to a one-peak configuration at a critical attractive interaction strength. This phase transition also leads to a significant reduction in the superfluid fraction, which goes to zero for a sufficiently attractive Bose-Bose interaction.
We investigate the effects of spatial curvature for an atomic Bose-Einstein condensate confined in an elliptical waveguide. The system is well described by an effective 1D Gross-Pitaevskii equation with a quantum-curvature potential, which has the shape of a double-well but crucially depends on the eccentricity of the ellipse. The ground state of the system displays a quantum phase transition from a two-peak configuration to a one-peak configuration at a critical attractive interaction strength. In correspondence of this phase transition the superfluid fraction strongly reduces and goes to zero for a sufficiently attractive Bose-Bose interaction.
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