Viscosity solutions for a polymer crystal growth model

Abstract

We prove existence of a solution for a polymer crystal growth model describing the movement of a front ((t)) evolving with a nonlocal velocity. In this model the nonlocal velocity is linked to the solution of a heat equation with source δ. The proof relies on new regularity results for the eikonal equation, in which the velocity is positive but merely measurable in time and with H\"older bounds in space. From this result, we deduce a priori regularity for the front. On the other hand, under this regularity assumption, we prove bounds and regularity estimates for the solution of the heat equation.