Synthetic magnetic fields induce Fraunhofer-like patterns in the critical current of atomic Josephson junctions via spatial interference and Josephson vortices, distinct from charged superconducting cases due to atomic neutrality.
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cond-mat.quant-gas 2years
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Time-dependent BdG simulations show low-order Shapiro steps in barrier velocity versus chemical potential difference for ring-trapped superfluid Fermi gases, with quantization in units of ħω/2.
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Fraunhofer Patterns in Atomic Josephson Junctions
Synthetic magnetic fields induce Fraunhofer-like patterns in the critical current of atomic Josephson junctions via spatial interference and Josephson vortices, distinct from charged superconducting cases due to atomic neutrality.
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Shapiro steps of superfluid Fermi gases in a ring trap across the BCS--BEC crossover
Time-dependent BdG simulations show low-order Shapiro steps in barrier velocity versus chemical potential difference for ring-trapped superfluid Fermi gases, with quantization in units of ħω/2.