Odd viscosity in a chiral active fluid

ORAL

Abstract

We spin a system of colloidal magnets in an external magnetic field, forming a cohesive material that behaves like a liquid. Along a boundary of the fluid, we observe lively dynamics, including unidirectional surface waves that propagate due to an interplay of viscous stresses and surface tension. Through broken time-reversal and parity symmetries, this system allows the emergence of an anomalous transport coefficient known as odd (or Hall) viscosity. Unlike ordinary viscosity, this coefficient is dissipationless and absent in simple fluids. By reducing substrate drag, we are able to experimentally observe odd viscosity through the decay of free surface waves.

*National Science Foundation MRSEC Program at The University of Chicago (Grant DMR-1420709) and a Packard Fellowship

Presenters

  • Ephraim Bililign

    • University of Chicago

Authors

  • Ephraim Bililign

    • University of Chicago

  • Vishal H Soni

    • University of Chicago

  • Sofia Magkiriadou

    • École Polytechnique Fédérale de Lausanne (EPFL)

  • Stefano Sacanna

    • New York University
    • Chemistry, New York University

  • Denis Bartolo

    • Ecole Normale Superieure de Lyon
    • ENS de Lyon

  • Michael John Shelley

    • Flatiron Institute
    • Center for Computational Biology, Flatiron Institute
    • Courant Institute / Flatiron Institute
    • CCB, Flatiron Institute
    • New York University
    • New York University - Courant Institute, Flatiron Institute

  • William T. M. Irvine

    • University of Chicago