English

Coarse-graining strategy for modeling effective, highly diffusive fluids with reduced polydispersity: A dynamical study

Soft Condensed Matter 2020-09-16 v2 Statistical Mechanics

Abstract

We present a coarse-graining strategy for reducing the number of particle species in mixtures to achieve a simpler system with higher diffusion while preserving the total particle number and characteristic dynamic features. As a system of application, we chose the bidisperse Lennard-Jones-like mixture discovered by Kob and Andersen [Phys. Rev. Lett. 73, 1376 (1994)] possessing a slow dynamics due to the fluid's multi-component character with its apparently unconventional choice for the pair potential of the type-A-type-B arrangement. We further established in a so-formed coarse-grained and temperature-independent monodisperse system an equilibrium structure with a radial distribution function resembling its mixture counterpart. This one-component system further possesses similar dynamic features like glass transition temperature and critical exponents while subjected to Newtonian mechanics. This strategy may finally lead to the manufacturing of new nanoparticle/colloidal fluids by experimentally modeling only the outcoming effective pair potential(s) and no other macroscopic quantity.

Keywords

Cite

@article{arxiv.1903.01703,
  title  = {Coarse-graining strategy for modeling effective, highly diffusive fluids with reduced polydispersity: A dynamical study},
  author = {Thomas Heinemann and YounJoon Jung},
  journal= {arXiv preprint arXiv:1903.01703},
  year   = {2020}
}

Comments

19 pages, 16 figures

R2 v1 2026-06-23T07:58:26.176Z