Hydrodynamic Pair Attractions Between Driven Colloidal Particles
Soft Condensed Matter
2011-10-12 v1 Statistical Mechanics
Abstract
Colloidal spheres driven through water along a circular path by an optical ring trap display unexpected dynamical correlations. We use Stokesian Dynamics simulations and a simple analytical model to demonstrate that the path's curvature breaks the symmetry of the two-body hydrodynamic interaction, resulting in particle pairing. The influence of this effective nonequilibrium attraction diminishes as either the temperature or the stiffness of the radial confinement increases. We find a well defined set of dynamically paired states whose stability relies on hydrodynamic coupling in curving trajectories.
Cite
@article{arxiv.1109.2707,
title = {Hydrodynamic Pair Attractions Between Driven Colloidal Particles},
author = {Yulia Sokolov and Derek Frydel and David G. Grier and Haim Diamant and Yael Roichman},
journal= {arXiv preprint arXiv:1109.2707},
year = {2011}
}
Comments
5 pages, 4 figures