Litcius/Paper detail

Self-Oscillation and Synchronization Transitions in Elastoactive Structures

Ellen Zheng, Martin Brandenbourger, Louis Robinet, Peter Schall, Edan Lerner, Corentin Coulais

2023Physical Review Letters62 citationsDOIOpen Access PDF

Abstract

The interplay between activity and elasticity often found in active and living systems triggers a plethora of autonomous behaviors ranging from self-assembly and collective motion to actuation. Among these, spontaneous self-oscillations of mechanical structures is perhaps the simplest and most widespread type of nonequilibrium phenomenon. Yet, we lack experimental model systems to investigate the various dynamical phenomena that may appear. Here, we introduce a centimeter-sized model system for one-dimensional elastoactive structures. We show that such structures exhibit flagellar motion when pinned at one end, self-snapping when pinned at two ends, and synchronization when coupled together with a sufficiently stiff link. We further demonstrate that these transitions can be described quantitatively by simple models of coupled pendula with follower forces. Beyond the canonical case considered here, we anticipate our work to open avenues for the understanding and design of the self-organization and response of active biological and synthetic solids, e.g., in higher dimensions and for more intricate geometries.

Topics & Concepts

Oscillation (cell signaling)Synchronization (alternating current)PhysicsStatistical physicsComputer scienceTelecommunicationsGeneticsChannel (broadcasting)BiologyMicro and Nano RoboticsModular Robots and Swarm IntelligenceNonlinear Dynamics and Pattern Formation