Large Scale Brownian Dynamics of Confined Suspensions of Rigid Particles
ORAL
Abstract
We introduce new numerical methods for simulating the dynamics of passive and active Brownian colloidal suspensions of particles of arbitrary shape sedimented near a bottom wall. The methods also apply for periodic (bulk) suspensions. Our methods scale linearly in the number of particles, and enable previously unprecedented simulations of tens to hundreds of thousands of particles. We demonstrate the accuracy and efficiency of our methods on a suspension of boomerang-shaped colloids. We also model recent experiments on active dynamics of uniform suspensions of spherical microrollers.
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Authors
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Aleksandar Donev
Courant Institute, NYU, Courant Institute of Mathematical Sciences, Courant Institute, New York University
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Brennan Sprinkle
McCormick School of Engineering, Northwestern University
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Florencio Balboa
Center for Computational Biology, Flatiron Institute, Simons Foundation, Courant Institute, New York University
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Neelesh Patankar
Northwestern University, McCormick School of Engineering, Northwestern University