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Emergence of lanes and turbulent-like motion in active spinner fluid

Engineering and Technology

Emergence of lanes and turbulent-like motion in active spinner fluid

C. J. Reeves, I. S. Aranson, et al.

This research by Cody J. Reeves, Igor S. Aranson, and Petia M. Vlahovska unveils a fascinating continuum model that describes the behavior of fluid-embedded spinners. Discover how these spinners, influenced by fluid inertia, transition from chaotic movement to organized traffic lanes, and witness the emergence of a single rotation sense state in mixtures of rotating spinners.... show more
Abstract
Assemblies of self-rotating particles are gaining interest as a novel realization of active matter with unique collective behaviors such as edge currents and non-trivial dynamic states. Here, we develop a continuum model for a system of fluid-embedded spinners by coarse-graining the equations of motion of the discrete particles. We apply the model to explore mixtures of clockwise and counterclockwise rotating spinners. We find that the dynamics is sensitive to fluid inertia; in the inertialess system, after transient turbulent-like motion the spinners segregate and form steady traffic lanes. At small but finite Reynolds number instead, the turbulent-like motion persists and the system exhibits a chirality breaking transition leading to a single rotation sense state. Our results shed light on the dynamic behavior of non-equilibrium materials exemplified by active spinners.
Publisher
Communications Physics
Published On
May 10, 2021
Authors
Cody J. Reeves, Igor S. Aranson, Petia M. Vlahovska
DOI
https://doi.org/10.1038/s42005-021-00596-2
Tags
fluid dynamics
active matter
spinners
Reynolds number
chirality transition
non-equilibrium materials
coarse-graining

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