Kavli Affiliate: Mark Bowick
| First 5 Authors: John Berezney, Sattvic Ray, Itamar Kolvin, Mark Bowick, Seth Fraden
| Summary:
We use the chaotic flows generated by a microtubule-based active fluid to
assemble self-binding actin filaments into a thin elastic sheets. Starting from
a uniformly dispersed state, active flows drive the motion of actin filaments,
inducing their bundling and formation of bundle-bundle connections that
ultimately generate an elastic network. The emerging network separates from the
active fluid to form a thin elastic sheets suspended at the sample midplane. At
intermediate times, the active fluid drives large in-plane and out-of-plane
deformations of the elastic sheet which are driven by low-energy bending modes.
Self-organized sheets eventually exhibit centimeter-sized global spontaneous
oscillations and traveling waves, despite being isotropically driven on micron
lengths by the active fluid. The active assembly generates diverse network
structures which are not easily realizable with conventional paradigms of
equilibrium self-assembly and materials processing. Self-organized mechanical
sheets pose a challenge for understanding of how a hierarchy of structure,
mechanics, and dynamics emerges from a largely structureless initial suspension
of active and passive microscopic components.
| Search Query: ArXiv Query: search_query=au:”Mark Bowick”&id_list=&start=0&max_results=3