A Maxwell Construction for Phase Separation in Vibrated Granular Matter?
Soft Condensed Matter
2015-03-03 v1
Abstract
Experiments and computer simulations are carried out to investigate ordering principles in a granular gas which phase separates under vibration. The densities of the dilute and the dense phase are found to follow a lever rule. A Maxwell construction is found to predict both the coexisting pressure and binodal densities remarkably well, despite the fact that the pressure-volume characteristic is not an isotherm. Although the system is far from equilibrium and energy conservation is strongly violated, we derive the construction from the minimization of mechanical work and fluctuating particle currents.
Cite
@article{arxiv.1503.00159,
title = {A Maxwell Construction for Phase Separation in Vibrated Granular Matter?},
author = {James P. D. Clewett and Jack Wade and R. M. Bowley and Stephan Herminghaus and Michael R. Swift and Marco G. Mazza},
journal= {arXiv preprint arXiv:1503.00159},
year = {2015}
}