Striped Patterns in Radially Driven Suspensions with Open Boundaries
Abstract
We study the motion of radially driven fluid-immersed particles in a novel Hele-Shaw cell with open boundaries. The initially uniform suspension forms a striped pattern within a specific range of horizontal oscillation frequencies and for sufficiently large amplitudes. We observe that the initial coarsening dynamics of the stripes gradually slows down and the pattern reaches a steady state after a few minutes. The distance between the stripes in the steady state exhibits an exponentially saturating increase with increased oscillation amplitude or frequency. The width of the stripes decreases as a power-law with the frequency while its amplitude dependence follows a logistic function. We propose a mechanism -- based on the interplay between shear stress, hydrodynamic interactions, and frictional forces -- to link the structural characteristics of the stripes to the properties of the oscillatory external drive.
Cite
@article{arxiv.2107.06958,
title = {Striped Patterns in Radially Driven Suspensions with Open Boundaries},
author = {Mahdieh Mohammadi and Maniya Maleki and Adam Wysocki and M. Reza Shaebani},
journal= {arXiv preprint arXiv:2107.06958},
year = {2021}
}
Comments
7 pages, 4 figures