Polar chiral active matter is formally isomorphic to a disordered resistively shunted Josephson array, supporting information supercurrents and providing a microscopic derivation of Goldstone spin waves for inertial flocking models.
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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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Polar chiral active matter as a motile, disordered Josephson array: Information supercurrents and Goldstone spin waves
Polar chiral active matter is formally isomorphic to a disordered resistively shunted Josephson array, supporting information supercurrents and providing a microscopic derivation of Goldstone spin waves for inertial flocking models.
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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.