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Miscibility and stability of dipolar bosonic mixtures

Au-Chen Lee, D. Baillie, P. B. Blakie, R. N. Bisset

2021Physical review. A/Physical review, A20 citationsDOIOpen Access PDF

Abstract

Combining two Bose-Einstein condensates (BECs) may result in a miscible or immiscible mixture, or even a violent implosion. We theoretically demonstrate that dipolar two-component BECs produce far richer physics than their nondipolar counterparts. Intriguingly, when both components have equivalent dipoles, the transition to immiscibility is largely unaffected by dipolar physics, yet the dipoles maximally affect stability. Conversely, antiparallel dipoles strongly affect miscibility but have little effect on stability. By performing three-dimensional calculations of the ground states and their excitations, we find strong dependencies on the confinement geometry. We explore and elucidate the various phononic and rotonic phase transitions, as well as symmetry-preserving crossovers.

Topics & Concepts

DipoleMiscibilityAntiparallel (mathematics)Condensed matter physicsPhase transitionPhysicsStability (learning theory)SpinodalSymmetry (geometry)Materials scienceStatistical physicsPhase (matter)Quantum mechanicsNuclear magnetic resonancePolymerMathematicsComputer scienceMachine learningMagnetic fieldGeometryCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamicsStrong Light-Matter Interactions
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