Magnetically-actuated artificial cilium: A simple theoretical model

Meng, Fanlong; Matsunaga, D.; Yeomansa, J. M.; Golestanian, Ramin

doi:10.1039/c8sm02561d

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Magnetically-actuated artificial cilium: A simple theoretical model

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Meng, Fanlong
Department of Living Matter Physics, Max Planck Institute for Dynamics and Self-Organization, Max Planck Society;

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Golestanian, Ramin
Department of Living Matter Physics, Max Planck Institute for Dynamics and Self-Organization, Max Planck Society;

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Meng, F., Matsunaga, D., Yeomansa, J. M., & Golestanian, R. (2019). Magnetically-actuated artificial cilium: A simple theoretical model. Soft Matter, 15, 3864-3871. doi:10.1039/c8sm02561d.

Zitierlink: https://hdl.handle.net/21.11116/0000-0003-439A-4

Zusammenfassung

We propose a theoretical model for a magnetically-actuated artificial cilium in a fluid environment and investigate its dynamical behaviour, using both analytical calculations and numerical simulations. The cilium consists of a spherical soft magnet, a spherical hard magnet, and an elastic spring that connects the two magnetic components. Under a rotating magnetic field, the cilium exhibits a transition from phase-locking at low frequencies to phase-slipping at higher frequencies. We study the dynamics of the magnetic cilium in the vicinity of a wall by incorporating its hydrodynamic influence, and examine the efficiency of the actuated cilium in pumping viscous fluids. This cilium model can be helpful in a variety of applications such as transport and mixing of viscous solutions at small scales and fabricating microswimmers.