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Supersolidity in an elongated dipolar condensate

P. B. Blakie, D. Baillie, L. Chomaz, F. Ferlaino

2020Physical Review Research74 citationsDOIOpen Access PDF

Abstract

We present a theory for the emergence of a supersolid state in a cigar-shaped dipolar quantum Bose gas. Our approach is based on a reduced three-dimensional (3D) theory, where the condensate wave function is decomposed into an axial field and a transverse part described variationally. This provides an accurate fully 3D description that is specific to the regime of current experiments and efficient to compute. We apply this theory to understand the phase diagram for a gas in an infinite tube potential. We find that the supersolid transition has continuous and discontinuous regions as the averaged density varies. We develop two simplified analytic models to characterize the phase diagram and elucidate the roles of quantum droplets and of the roton excitation.

Topics & Concepts

SupersolidPhase diagramPhysicsCondensed matter physicsQuantumPhase transitionRotonDipoleStatistical physicsQuantum mechanicsQuantum phase transitionField (mathematics)Function (biology)Phase (matter)Quantum phasesTransverse planeWave functionDiagramBose gasQuantum fluctuationBosonSuperfluid filmField theory (psychology)Quantum field theoryTransverse fieldMean field theoryEffective field theorySuperfluidityNon-equilibrium thermodynamicsState (computer science)Cold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsAdvanced Physical and Chemical Molecular Interactions
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