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Paper detail

Minimal Model for Hydrodynamic Synchronization

Motivated by the observed coordination of nearby beating cilia, we use a scale model experiment to show that hydrodynamic interactions can cause synchronization between rotating paddles driven at constant torque in a very viscous fluid. Synchronization is only observed when the shafts supporting the paddles have some flexibility. The phase difference in the synchronized state depends on the symmetry of the paddles. We use the method of regularized stokeslets to model the paddles and find excellent agreement with the experimental observations. We also use a simple analytic theory based on far-field approximations to derive scaling laws for the synchronization time as a function of paddle separation.

preprint2009arXivOpen access
Bian QianHongyuan JiangDavid A. GagnonKenneth S. BreuerThomas R. Powers
Biological Physicscond-mat.soft
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Bian QianHongyuan JiangDavid A. GagnonKenneth S. BreuerThomas R. Powers

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