English

Emergent Inter-particle Interactions in Thermal Amorphous Solids

Soft Condensed Matter 2017-06-27 v2

Abstract

Amorphous media at finite temperatures, be them liquids, colloids or glasses, are made of interacting particles that move chaotically due to thermal energy, colliding and scattering continuously off each other. When the average configuration in these systems relaxes only at long times, one can introduce {\em effective interactions} that keep the {\em mean positions} in mechanical equilibrium. We introduce a new framework to determine these effective force-laws that define an effective Hessian that can be employed to discuss stability properties and density of states of the amorphous system. We exemplify the approach with a thermal glass of hard spheres; these feel zero forces when not in contact and infinite forces when they touch. The present approach recaptures the effective interactions which for sufficiently dense spheres at temperature TT depends on the gap hh between spheres as T/hT/h [C. Brito and M. Wyart, Europhys. Lett. 76 149 (2006)]. In systems at lower densities or with longer microscopic interaction (say like Lennard-Jones), the emergent force laws will include ternary, quaternary and generally higher order many-body terms, even if the microscopic interactions are strictly binary.

Keywords

Cite

@article{arxiv.1608.05919,
  title  = {Emergent Inter-particle Interactions in Thermal Amorphous Solids},
  author = {Edan Lerner and Yoav G. Pollack and Itamar Procaccia and Birte Riechers},
  journal= {arXiv preprint arXiv:1608.05919},
  year   = {2017}
}

Comments

This version now includes initial analysis of 3-body interactions

R2 v1 2026-06-22T15:25:28.873Z