Litcius/Paper detail

Optimal navigation strategies for microswimmers on curved manifolds

Lorenzo Piro, Evelyn Tang, Ramin Golestanian

2021Physical Review Research20 citationsDOIOpen Access PDF

Abstract

Finding the fastest path to a desired destination is a vitally important task for microorganisms moving in a fluid flow. We study this problem by building an analytical formalism for overdamped microswimmers on curved manifolds and arbitrary flows. We show that the solution corresponds to the geodesics of a Randers metric, which is an asymmetric Finsler metric that reflects the irreversible character of the problem. Using the example of a spherical surface, we demonstrate that the swimmer performance that follows this "Randers policy" always beats a more direct policy. A study of the shape of isochrones reveals features such as self-intersections, cusps, and abrupt nonlinear effects. Our work provides a link between microswimmer physics and geodesics in generalizations of general relativity.

Topics & Concepts

GeodesicFormalism (music)Nonlinear systemMetric (unit)Classical mechanicsPhysicsPath (computing)Work (physics)Mathematical analysisComputer scienceMathematicsCharacter (mathematics)Nonlinear dynamical systemsSwarm behaviourGeometryDifferential geometryGeometric shapeKinematicsTopology (electrical circuits)Micro and Nano RoboticsSpacecraft Dynamics and ControlControl and Dynamics of Mobile Robots