New Preprint ‘Justification and structure- and asymptotic-preserving discretizations of a hyperbolized Cahn-Hilliard equation’ on arXiv

Jan Giesselmann, Fabio Leotta, Jochen Schütz, and I have published our new preprint Justification and structure- and asymptotic-preserving discretizations of a hyperbolized Cahn-Hilliard equation on arXiv.

We study a hyperbolic approximation (“hyperbolization”) of the Cahn-Hilliard (CH) equation, originally proposed by Dhaouadi, Dumbser, and Gavrilyuk (2025, DOI: 10.1098/rspa.2024.0606) and study its convergence towards the CH model in a relaxation limit both via formal asymptotic expansions and, for a slightly modified approximation, via the relative energy framework. Moreover, we develop energy-stable semidiscretizations of the CH equation and of this hyperbolization using upwind summation-by-parts operators in space. Subsequently, we combine them with (additive) implicit-explicit (IMEX) Runge-Kutta methods based on a convex-concave splitting. We show that the resulting method is asymptotic preserving, i.e., it converges in the limit of the relaxation parameter to a stable discretization of the original CH equation. The choice of the necessary parameters is guided by the a priori error estimate based on the relative energy framework.

The reproducibility repository is available on Zenodo.