Interface stability, interface fluctuations, and the Gibbs-Thomson relation in motility-induced phase separations
Soft Condensed Matter
2017-01-11 v3 Biological Physics
Abstract
Minimal models of self-propelled particles with short-range volume exclusion interactions have been shown to exhibit signatures of phase separation. Here I show that the observed interfacial stability and fluctuations in motility-induced phase separations (MIPS) can be explained by modeling the microscopic dynamics of the active particles in the interfacial region. In addition, I demonstrate the validity of the Gibbs-Thomson relation in MIPS, which provides a functional relationship between the size of a condensed drop and its surrounding vapor concentration. As a result, the coarsening dynamics of MIPS at vanishing supersaturation follows the classic Lifshitz-Slyozov scaling law at the late stage.
Cite
@article{arxiv.1503.08674,
title = {Interface stability, interface fluctuations, and the Gibbs-Thomson relation in motility-induced phase separations},
author = {Chiu Fan Lee},
journal= {arXiv preprint arXiv:1503.08674},
year = {2017}
}
Comments
11 pages, 6 figures