Y. Kafri, D. Biron, M. R. Evans, D. Mukamel
Published 2000-04-03Version 1
The coarsening process in a class of driven systems is studied. These systems have previously been shown to exhibit phase separation and slow coarsening in one dimension. We consider generalizations of this class of models to higher dimensions. In particular we study a system of three types of particles that diffuse under local conserving dynamics in two dimensions. Arguments and numerical studies are presented indicating that the coarsening process in any number of dimensions is logarithmically slow in time. A key feature of this behavior is that the interfaces separating the various growing domains are smooth (well approximated by a Fermi function). This implies that the coarsening mechanism in one dimension is readily extendible to higher dimensions.
Comments: submitted to EPJB, 13 pages
Journal: Euro. Phys. J. B 16 (2000) 669
Hyperuniformity and phase separation in biased ensembles of trajectories for diffusive systems
Dynamics versus energetics in phase separation
On the foundation of thermodynamics by microcanonical thermostatistics. The microscopic origin of condensation and phase separations
