Perturbed asymptotic expansions for interior-layer solutions of a semilinear reaction-diffusion problem with small diffusion
Provides theoretical convergence guarantees for numerical methods applied to singularly perturbed reaction-diffusion problems with interior layers.
The paper constructs asymptotic expansions for interior-layer solutions of a semilinear reaction-diffusion problem with small diffusion, and uses perturbations of these expansions to obtain discrete sub- and super-solutions for finite difference methods, yielding convergence results.
A semilinear reaction-diffusion two-point boundary value problem, whose second-order derivative is multiplied by a small positive parameter $\eps^2$, is considered. It can have multiple solutions. An asymptotic expansion is constructed for a solution that has an interior layer. Further properties are then established for a perturbation of this expansion. These are used in\cite{KoStMain} to obtain discrete sub-solutions and super-solutions for certain finite difference methods described there, and in this way yield convergence results for those methods.