On pattern formation in reaction-diffusion systems containing self- and cross-diffusion

In this article we propose a unified framework in order to study reaction-diffusion systems containing self- and cross-diffusion using a free energy approach. This framework naturally leads to the formulation of an energy law, and to a numerical method respecting a discrete version of the latter. It constitutes an alternative method and complements the standard linear stability analysis, as it allows for the numerical study of nonlinear patterns, while monitoring the energy evolution, even in complex geometries. As an application, we propose and study a modified Gray-Scott system augmented with self- and cross-diffusion terms. Numerical simulations unveil original patterns, clearly distinct from those obtained with linear diffusion only. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

This article introduces a unified framework to study reaction-diffusion systems with self- and cross-diffusion using a free energy approach. The framework leads to the formulation of an energy law and a numerical method. It provides an alternative method for studying nonlinear patterns and monitoring energy evolution in complex geometries.