A COMPARISON OF INTEGRAL-EQUATIONS WITH UNIQUE SOLUTION IN THE RESONANCE REGION FOR SCATTERING BY CONDUCTING BODIES

A comparison of integral equations, for scattering problems by arbitrary shape-conducting bodies, having a unique solution in the resonance region is presented. The augmented electric and magnetic field integral equations and the combined field integral equation, in their exact and approximate versions, are considered. A brief review of the several integral equations, and of the basis and test functions used in the method of moments to solve them, is initially done. Their implementation in a computer code is analyzed, mainly the relation between the matrix properties and the CPU time and memory. Numerical results (condition number and backscattering cross section) are presented for the cube. It is shown that the combined field integral equation, and the approximate (symmetric) combined field integral equation, are the most efficient equations to use in the neighborhood of resonant frequencies, because the overdetermined augmented integral equations require an extra matrix multiplication.