Integral equation approach for the numerical solution of a Robin problem for the Klein-Gordon equation in a doubly connected domain

In this paper we consider a Robin problem for the Klein-Gordon equation in a doubly connected domain. The solution domain considered is a bounded smooth doubly connected planar domain bounded by two simple disjoint closed curves. The analysis of the problem is based on the indirect integral equations method. The solution is represented as a sum of two single-layer potentials defined on each of the two boundary curves with unknown densities. To find out the densities the representation is matched with the given Robin data to generate a system of linear integral equations of the second kind with continuous and weakly-singular kernels. It is shown that the operator corresponding to this system is injective and due to its compactness according to Riesz theory there exists a unique solution. To discretize the system we apply Nystrom method with a specifically chosen quadrature rules to obtain an exponential order of convergence of the approximate solution. Numerical experiments are conducted for three testing examples that back up the theoretical reasoning.