Neural network quantum states compute Efimov bound states for 3-6 boson systems and mass-imbalanced fermions at unitarity, matching known energies and reproducing scale invariance and wave function features.
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Strong interactions in a large 1D quantum gas induce a crossover to 3D behavior, causing failure of standard 1D models and producing distinct breathing-mode frequency plateaus from 1D and 3D hydrodynamics.
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Neural-network quantum states for solving few-body problems: application to Efimov physics
Neural network quantum states compute Efimov bound states for 3-6 boson systems and mass-imbalanced fermions at unitarity, matching known energies and reproducing scale invariance and wave function features.
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Strong interaction induced dimensional crossover in 1D quantum gas
Strong interactions in a large 1D quantum gas induce a crossover to 3D behavior, causing failure of standard 1D models and producing distinct breathing-mode frequency plateaus from 1D and 3D hydrodynamics.