A Variational Principle for Pulsating Standing Waves and an Einstein Relation in the Sharp Interface Limit
Abstract
This paper investigates the connection between the effective, large scale behavior of Allen-Cahn energy functionals in periodic media and the sharp interface limit of the associated gradient flows. By introducing a Percival-type Lagrangian in the cylinder , we establish a link between the -convergence results of Anisini, Braides, and Chiad\`{o} Piat and the sharp interface limit results of Barles and Souganidis. In laminar media, we prove a sharp interface limit in a graphical setting, making no assumptions other than sufficient smoothness of the coefficients, and we prove that the effective interface velocity and surface tension satisfy an Einstein relation. A number of pathologies are presented to highlight difficulties that do not arise in the spatially homogeneous setting.
Cite
@article{arxiv.2003.07298,
title = {A Variational Principle for Pulsating Standing Waves and an Einstein Relation in the Sharp Interface Limit},
author = {Peter Morfe},
journal= {arXiv preprint arXiv:2003.07298},
year = {2022}
}
Comments
Journal version to appear in ARMA