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.
Finite- size fluctuations for stochastic coupled oscillators: A general theory
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Subsystem resetting in Kuramoto models shifts or suppresses synchronization transitions and produces re-entrant behavior, analyzed via self-consistent order-parameter equations for arbitrary interaction harmonics and noise levels.
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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.
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Analytical approach to subsystem resetting in generalized Kuramoto models
Subsystem resetting in Kuramoto models shifts or suppresses synchronization transitions and produces re-entrant behavior, analyzed via self-consistent order-parameter equations for arbitrary interaction harmonics and noise levels.