Coordinated motion of active filaments on spherical surfaces

Coordinated cilia are used throughout the natural world for micronscale fluid transport. They are often modeled with regular filament arrays on fixed planar surfaces. Here we simulate hundreds of interacting active filaments on spherical surfaces, where defects in the cilia displacement field must be present. We see synchronized beating towards or about two defects for spheres held fixed. Defects alter filament beating, which causes the sphere to move once released. This motion feeds back to the filaments, resulting in a whirling state with metachronal behavior along the equator.

Automated summary

The study focuses on simulating hundreds of interacting active filaments on spherical surfaces, revealing that defects alter filament beating and cause sphere movement once released. This motion feedback to the filaments, resulting in a whirling state with metachronal behavior along the equator.