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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3 Pith papers cite this work. Polarity classification is still indexing.
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A new coarse-graining operator applied to phase-coupled motile oscillators reveals an inverse energy cascade and macroscopic vortex clustering in overdamped chiral active matter.
Continuous heterodyne measurement reveals apparent quantum limit cycles in the van der Pol oscillator and two-level systems, showing similarity to classical limit cycles with noise and linking synchronization measures to experimentally accessible quantities.
citing papers explorer
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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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Renormalised hydrodynamics in polar chiral active matter: Spectral scaling and vortex clustering in phase-coupled, motile oscillators
A new coarse-graining operator applied to phase-coupled motile oscillators reveals an inverse energy cascade and macroscopic vortex clustering in overdamped chiral active matter.
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Quantum limit cycles and synchronization from a measurement perspective
Continuous heterodyne measurement reveals apparent quantum limit cycles in the van der Pol oscillator and two-level systems, showing similarity to classical limit cycles with noise and linking synchronization measures to experimentally accessible quantities.