Non-Markov Model for Self-Propelling Droplets

ORAL

Abstract

Active droplets and particles make an experimentally-tractable model systems for autophoretic micro-swimmers that interact with their own and each other’s trails through the concentration gradient they leave behind. Here, a non-Markov model is derived to describe their collective motion. The model is shown to capture experimental features, such as the enhancement of diffusion as the fuel concentration is decreased. It also explains the paradoxical observation that the lower the microscopic diffusivity of the swimmers, the higher their effective diffusion coefficient at long times.

*This work supported primarily by the Materials Research Science and Engineering Center (MRSEC) program of the NSF Award No. DMR-1420073. J.B. acknowledges support by the NSF under Grant No. DMR-1710163.

Presenters

  • Katherine Newhall

    • Dept. of Mathematics, Univ of NC - Chapel Hill

Authors

  • Katherine Newhall

    • Dept. of Mathematics, Univ of NC - Chapel Hill

  • Pepijn Moerman

    • Utrecht University
    • Debye Institute for Nanomaterials Science, Utrecht University

  • Eric Vanden-Eijnden

    • Courant Institute, New York University

  • Jasna Brujic

    • New York University
    • Dept of Physics, New York University
    • Center for Soft Matter Research, New York University