The conductive problem for Maxwell's equations at low frequencies

## Abstract A study of the low‐frequency behaviour of solutions to dissipative Maxwell's equations with discontinuous coefficients is given.

## Abstract Consider a bounded domain Ω surrounded by a perfect conductor and containing a conducting cavity __D__. The behaviour of the solutions of the time harmonic Maxwell problem as frequency tends to 0 is analysed in this situation. Necessary and sufficient conditions on the excitations are g

Consider a time-harmonic electromagnetic plane wave incident on a medium enclosed by a bounded domain in R 3 . In this paper, well-posedness of the variational problem for the direct scattering is examined. An energy estimate for the scattered field is obtained on which the Born approximation is bas

## Abstract The interior transmission problem appears naturally in the study of the inverse scattering problem of determining the shape of a penetrable medium from a knowledge of the time harmonic incident waves and the far field patterns of the scattered waves. We propose a variational study of th

## Abstract A hybrid method for solution of Maxwell's equations of electromagnetics in the frequency domain is developed as a combination between the method of moments and the approximation in physical optics. The equations are discretized by a Galerkin method and solved by an iterative block Gauss