Defect asymmetry in pulsating active matter enables emergent motility via a ratchet effect that breaks symmetries and controls a crossover from spiral to fiber-like waves.
Topology of pulsating active matter: Defect asymmetry controls emergent motility
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abstract
In pulsating active matter, topological defects are motile despite the absence of any macroscopic flows and microscopic self-propulsion. We reveal that this motility arises from a ratchet effect: the mechanochemical coupling between local oscillations and repulsive interactions breaks both spatial and time-reversal symmetries, thus leading asymmetric rotating defects to drift under fluctuations. This mechanism regulates a crossover between spiral waves connecting slow defects and fiber-like waves connecting fast defects, in analogy with the onset of heart rhythm disorder in cardiac tissues. We rationalize this crossover in terms of a fluctuating hydrodynamics that captures how motile defects spontaneously nucleate and move within an ordered background.
fields
cond-mat.soft 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Topology of pulsating active matter: Defect asymmetry controls emergent motility
Defect asymmetry in pulsating active matter enables emergent motility via a ratchet effect that breaks symmetries and controls a crossover from spiral to fiber-like waves.