Numerical simulations demonstrate morphological false-vacuum decay in dipolar supersolids, with bubble growth speed set by the slowest sound mode and decay rate consistent with an effective Coleman bounce model.
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cond-mat.quant-gas 2years
2026 2verdicts
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In-situ imaging of quasi-2D 166Er Bose gas reveals magnetostriction crossover from anisotropic superfluid to isotropic normal phase, supported by a quasi-2D Hartree-Fock mean-field thermometry framework that fits temperature and chemical potential from a single density profile.
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Morphological false-vacuum decay in dipolar supersolids
Numerical simulations demonstrate morphological false-vacuum decay in dipolar supersolids, with bubble growth speed set by the slowest sound mode and decay rate consistent with an effective Coleman bounce model.
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In-situ Observation of Magnetostriction Crossover in a Strongly Dipolar Two-Dimensional Bose Gas
In-situ imaging of quasi-2D 166Er Bose gas reveals magnetostriction crossover from anisotropic superfluid to isotropic normal phase, supported by a quasi-2D Hartree-Fock mean-field thermometry framework that fits temperature and chemical potential from a single density profile.