Selective and collective actuation in active solids

Autor: P. Baconnier, D. Shohat, C. Hernández López, C. Coulais, V. Démery, G. Düring, O. Dauchot
Přispěvatelé: IoP (FNWI), WZI (IoP, FNWI), Soft Matter (WZI, IoP, FNWI)
Jazyk: angličtina
Rok vydání: 2022
Předmět:
Zdroj: Nature Physics, 18(10), 1234-1239. Nature Publishing Group
Nature Physics
ISSN: 1745-2473
Popis: Active solids consist of elastically coupled out-of-equilibrium units performing work. They are central to autonomous processes, such as locomotion, self-oscillations and rectification, in biological systems,designer materials and robotics. Yet, the feedback mechanism between elastic and active forces, and the possible emergence of collective behaviours in a mechanically stable elastic solid remains elusive. Here we introduce a minimal realization of an active elastic solid, in which we characterize the emergence of selective and collective actuation and fully map out the interplay between activity, elasticity and geometry. Polar active agents exert forces on the nodes of a two dimensional elastic lattice. The resulting displacement field nonlinearly reorients the active agents. For large enough coupling, a collective oscillation of the lattice nodes around their equilibrium position emerges. Only a few elastic modes are actuated and, crucially, they are not necessarily the lowest energy ones. Combining experiments with the numerical and theoretical analysis of an agents model, we unveil the bifurcation scenario and the selection mechanism by which the collective actuation takes place. Our findings may provide a new mechanism for oscillatory dynamics in biological tissues and specifically confluent cell monolayers. The present selection mechanism may also be advantageous in providing meta-materials, with bona fide autonomy.
6 pages, 4 figures
Databáze: OpenAIRE
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