Efficient and accurate simulation of dynamic dielectric objects
Abstract
Electrostatic interactions between dielectric objects are complex and of a many-body nature, owing to induced surface bound charge. We present a collection of techniques to simulate dynamical dielectric objects. We calculate the surface bound charge from a matrix equation using the Generalized Minimal Residue method (GMRES). Empirically, we find that GMRES converges very quickly. Indeed, our detailed analysis suggests that the relevant matrix has a very compact spectrum for all non-degenerate dielectric geometries. Each GMRES iteration can be evaluated using a fast Ewald solver with cost that scales linearly or near-linearly in the number of surface charge elements. We analyze several previously proposed methods for calculating the bound charge, and show that our approach compares favorably.
Cite
@article{arxiv.1401.1522,
title = {Efficient and accurate simulation of dynamic dielectric objects},
author = {Kipton Barros and Daniel Sinkovits and Erik Luijten},
journal= {arXiv preprint arXiv:1401.1522},
year = {2018}
}
Comments
16 pages, 2 figures