Phase ordering dynamics of reconstituting particles
Abstract
We consider the large-time dynamics of one-dimensional processes involving adsorption and desorption of extended hard-core particles (dimers, trimers,\,-mers), while interacting through their constituent monomers. Desorption can occur whether or not these latter adsorbed together, which leads to reconstitution of -mers and the appearance of sectors of motion with nonlocal conservation laws for . Dynamic exponents of the sector including the empty chain are evaluated by finite-size scaling analyses of the relaxation times embodied in the spectral gaps of evolution operators. For attractive interactions it is found that in the low-temperature limit such time scales converge to those of the Glauber dynamics, thus suggesting a diffusive universality class for . This is also tested by simulated quenches down to where a common scaling function emerges. By contrast, under repulsive interactions the low-temperature dynamics is characterized by metastable states which decay subdiffusively to a highly degenerate and partially jammed phase.
Cite
@article{arxiv.1703.10208,
title = {Phase ordering dynamics of reconstituting particles},
author = {F. A. Gómez Albarracín and H. D. Rosales and M. D. Grynberg},
journal= {arXiv preprint arXiv:1703.10208},
year = {2017}
}
Comments
13 pages, 8 figures, brief additions. To appear in Phys. Rev. E