Structure Functions and Intermittency for Coarsening Systems
Statistical Mechanics
2026-04-06 v1
Abstract
In studies of turbulence, there has been extensive use of physical quantities such as {\it energy transfers} and {\it structure functions}. We examine whether these quantities can be useful in understanding problems of domain growth or coarsening, as modeled by the {\it time-dependent Ginzburg-Landau} (TDGL) equation and the {\it Cahn-Hilliard} (CH) equation. This paper has two major themes. First, we review our recent papers on energy transfers in domain growth. Second, we study structure functions and intermittency for coarsening systems. As a consequence of sharp interfaces, the structure functions scale as , where is the distance between two points. For the TDGL and CH models, , indicating {\it anomalous scaling}
Cite
@article{arxiv.2604.02855,
title = {Structure Functions and Intermittency for Coarsening Systems},
author = {Pradeep Kumar Yadav and Mahendra K. Verma and Sanjay Puri},
journal= {arXiv preprint arXiv:2604.02855},
year = {2026}
}
Comments
16 pages, 8 figures