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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Edge fluxes in chiral fluids equal the average odd stress in confined geometries or the jump in odd stress across interfaces in phase-separated systems.
An inertial chiral active Brownian particle confined in a harmonic potential transitions from Gaussian to platykurtic position distribution when harmonic and chiral frequencies match, confirmed by kurtosis dip and non-monotonic MSD.
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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Equation of state for the edge flow of chiral colloidal fluids
Edge fluxes in chiral fluids equal the average odd stress in confined geometries or the jump in odd stress across interfaces in phase-separated systems.
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Inertial chiral active Brownian particle: Transition from Gaussian to platykurtic distribution
An inertial chiral active Brownian particle confined in a harmonic potential transitions from Gaussian to platykurtic position distribution when harmonic and chiral frequencies match, confirmed by kurtosis dip and non-monotonic MSD.