Phase separation with non-local interactions
Abstract
Phase separation in complex systems is a ubiquitous phenomenon. While simple theories predict coarsening until only macroscopically large phases remain, concrete models often exhibit patterns with finite length scales. To unify such models, we here propose a general field-theoretic model that combines phase separation with non-local interactions. Our analysis reveals that long-range interactions generally suppress coarsening, whereas systems with non-local short-range interactions additionally exhibit a continuous phase transition to patterned phases. Only the latter system allows for the coexistence of homogeneous and patterned phases, which we explain by mapping to the conserved Swift-Hohenberg model. Taken together, our generic model reveals an underlying framework that describes similar phenomena observed in many complex phase-separating systems.
Cite
@article{arxiv.2511.05214,
title = {Phase separation with non-local interactions},
author = {Filipe C. Thewes and Yicheng Qiang and Oliver W. Paulin and David Zwicker},
journal= {arXiv preprint arXiv:2511.05214},
year = {2025}
}