Vortex embedding in spinor dipolar quantum droplets induces spontaneous axial magnetization via Barnett-like orbital-to-spin transfer, enabling mechanical Larmor precession and stable chiral bound states.
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In quasi-1D and quasi-2D dipolar Bose gases the soliton-to-droplet transition occurs either as a first-order phase transition with bistability or as a smooth crossover, with the breathing-mode response serving as an accessible experimental signature.
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Barnett effect in rotating spinor dipolar quantum droplets
Vortex embedding in spinor dipolar quantum droplets induces spontaneous axial magnetization via Barnett-like orbital-to-spin transfer, enabling mechanical Larmor precession and stable chiral bound states.
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Soliton-to-droplet crossover in a dipolar Bose gas in one and two dimensions
In quasi-1D and quasi-2D dipolar Bose gases the soliton-to-droplet transition occurs either as a first-order phase transition with bistability or as a smooth crossover, with the breathing-mode response serving as an accessible experimental signature.