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Multisynchrony in Active Microfilaments

Yi Man, Eva Kanso

2020Physical Review Letters38 citationsDOIOpen Access PDF

Abstract

Biological microfilaments exhibit a variety of synchronization modes. Recent experiments observed that a pair of isolated eukaryotic flagella, coupled solely via the fluid medium, display synchrony at nontrivial phase lags in addition to in-phase and antiphase synchrony. Using an elastohydrodynamic filament model in conjunction with numerical simulations and a Floquet-type theoretical analysis, we demonstrate that it is possible to reach multiple synchronization states by varying the intrinsic activity of the filament and the strength of hydrodynamic coupling between the two filaments. Then, we derive an evolution equation for the phase difference between the two filaments at weak coupling, and use a Kuramoto-style phase sensitivity analysis to reveal the nature of the bifurcations underlying the transitions between these different synchronized states.

Topics & Concepts

Protein filamentPhysicsFloquet theoryMicrofilamentPhase (matter)Coupling (piping)Synchronization (alternating current)Statistical physicsClassical mechanicsNonlinear systemQuantum mechanicsMaterials scienceTopology (electrical circuits)CytoskeletonBiologyMetallurgyGeneticsCombinatoricsMathematicsComposite materialCellMicro and Nano RoboticsNonlinear Dynamics and Pattern FormationMicrofluidic and Bio-sensing Technologies