Relaxation to a planar interface in the Mullins–Sekerka problem

Olga Chugreeva; Felix Otto; Maria G. Westdickenberg

doi:10.4171/ifb/415

JournalsifbVol. 21, No. 1pp. 21–40

Relaxation to a planar interface in the Mullins–Sekerka problem

Olga Chugreeva
RWTH Aachen, Germany
Felix Otto
Max-Planck-Institut für Mathematik in den Naturwissenschaften, Leipzig, Germany
Maria G. Westdickenberg
RWTH Aachen, Germany

A subscription is required to access this article.

Abstract

We analyze the convergence rates to a planar interface in the Mullins–Sekerka model by applying a relaxation method based on relationships among distance, energy, and dissipation. The relaxation method was developed by two of the authors in the context of the 1-d Cahn–Hilliard equation and the current work represents an extension to a higher dimensional problem in which the curvature of the interface plays an important role. The convergence rates obtained are optimal given the assumptions on the initial data.

Cite this article

Olga Chugreeva, Felix Otto, Maria G. Westdickenberg, Relaxation to a planar interface in the Mullins–Sekerka problem. Interfaces Free Bound. 21 (2019), no. 1, pp. 21–40

DOI 10.4171/IFB/415