Self-organized flows in phase-synchronizing active fluids
Abstract
Many active biological particles, such as swimming microorganisms or motor-proteins, do work on their environment by going though a periodic sequence of shapes. Interactions between particles can lead to the phase-synchronization of their duty cycles. Here we consider collective dynamics in a suspension of such active particles coupled through hydrodynamics. We demonstrate that the emergent non-equilibrium states feature stationary patterned flows and robust unidirectional pumping states under confinement. Moreover the phase-synchronized state of the suspension exhibits spatially robust chimera patterns in which synchronized and phase-isotropic regions coexist within the same system. These findings demonstrate a new route to pattern formation and could guide the design of new active materials.
Cite
@article{arxiv.2206.04035,
title = {Self-organized flows in phase-synchronizing active fluids},
author = {Brato Chakrabarti and Michael J. Shelley and Sebastian Fürthauer},
journal= {arXiv preprint arXiv:2206.04035},
year = {2022}
}
Comments
6 pages, 3 figures