An inverse problem of electromagnetic scattering and the method of lines

## Abstract The direct and inverse problems of normally incident TE plane‐wave scattering by perfectly conducting cylindrical structures with arbitrary cross sections are considered. It is shown that application of the method of lines results in an efficient procedure for calculating the scattering

## Abstract The direct and inverse problems of electromagnetic scattering by cylindrical structures with arbitrary cross sections for E‐polarized line sources are considered. It is shown that the method of lines gives a computationally efficient and accurate procedure for calculating the scattering

## Abstract We consider the scattering of plane, time‐harmonic electromagnetic waves by a perfect conductor D. We first show that the set ℱ~λ~ consisting of the span of a fixed linear combination of the electric and magnetic far‐field patterns is dense in the space of square‐integrable tangential v

## Abstract A modified method of lines is developed for solving electromagnetic scattering problems, when TM plane waves are incident on cylindrical structures with dielectric properties that are function of two spatial directions. Numerical performance of the proposed method are examined and found

## Abstract The one‐dimensional Schrödinger equation is considered when the potential is real valued, integrable, has a finite first moment, and contains no bound states. From either of the two reflection coefficients of such a potential the right and left reflection coefficients are extracted corr

## Abstract In this paper, Newmark time‐stepping scheme and edge elements are used to numerically solve the time‐dependent scattering problem in a three‐dimensional polyhedral cavity. Finite element methods based on the variational formulation derived in Van and Wood (__Adv. Comput. Math.__, to app