Chiral active fluids form rotating bubbles that dynamically break up and reform in a sparkling instability at optimal packing fractions, as predicted by coarse-grained hydrodynamics.
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A multiscale perturbative coarse-graining method derives effective large-scale descriptions for dry scalar active matter with motility regulation, identifying conditions for equilibrium-like regimes and capturing emergent particle currents when those conditions fail.
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Sparkling bubbles in chiral active fluids
Chiral active fluids form rotating bubbles that dynamically break up and reform in a sparkling instability at optimal packing fractions, as predicted by coarse-grained hydrodynamics.
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Multiscale perturbative approach to active matter with motility regulation
A multiscale perturbative coarse-graining method derives effective large-scale descriptions for dry scalar active matter with motility regulation, identifying conditions for equilibrium-like regimes and capturing emergent particle currents when those conditions fail.