Enhanced transport in unsteady Stokes flows generated by beating cilia

ORAL

Abstract

Eukaryotic microorganisms use cilia for swimming, to transport nutrients, and to detect flows. While most of the generated flows occur at low Reynolds numbers, individual beating cilia are known to produce unsteady flows. We study how transport properties by individual and populations of beating cilia are modified when accounting for these transient unsteady effects, including near boundaries, using a combination of experiments, theory, and simulations.

*This work received support from the Simons Foundation through the Math + X grant awarded to the University of Pennsylvania.

Presenters

  • Albane Théry

    • Department of Mathematics, University of Pennsylvania

Authors

  • Albane Théry

    • Department of Mathematics, University of Pennsylvania

  • Rafal Błaszkiewicz

    • University of Warsaw

  • Margot Young

    • University of Pennsylvania

  • Talia Becker Calazans

    • University of Pennsylvania

  • Maciej Lisicki

    • University of Warsaw

  • Arnold JTM Mathijssen

    • University of Pennsylvania