A hybrid method for the parallel computation of Green’s functions

Dyadic Green's functions for a dielectric half-space, based on ''Formulation C,'' are computed by a fast algorithm using the discrete complex image method with a two-le¨el approximation. The results show ¨ery good agreement with those calculated by direct numerical integration. It is expected to be

## Abstract The recent interest in numerical modeling of chemical kinetics has generated the need for proper analysis of the system sensitivities in such models. This paper describes the logic for a program developed by the authors to implement the Green's function method of sensitivity analysis in

We present a subroutinepackage for the computation of Green's functions ofrelaxed surfaces and the bulk within the framework ofa tight-binding basis. The application of a highly convergent renormalization scheme allows treatment of large unit cells and may include spin-orbit interaction in a suitabl

## Abstract The numerical solution of Maxwell's curl equations in the time domain is achieved by combining an unstructured mesh finite element algorithm with a cartesian finite difference method. The practical problem area selected to illustrate the application of the approach is the simulation of