A theoretical study on suppression of scattering by a perfectly conductive cylinder array

## Abstract We consider the scattering of a plane time‐harmonic electromagnetic wave by a perfectly conducting infinite cylinder with axis in the direction k, where k is the unit vector along the z axis. Suppose the incident wave propagates in a direction perpendicular to the cylinder. For a given

The multiple scattering of an electromagnetic wave with arbitrary polarization state by a linear array of parallel dielectric cylinders is considered. Such dielectric cylinders are assumed to be made of uniaxial bianisotropic chiral media and embedded in an unbounded host material. Using the boundar

This article presents a computational approach to the image reconstruction of a perfectly conducting cylinder illuminated by transverse electric waves. A perfectly conducting cylinder of unknown shape buried in one half-space and scatters the incident wave from another half-space where the scattered

The multiple-scattering characteristics of a linear array of parallel rotating dielectric cylinders with finite Conductivities are studied, and the normally incident wave is assumed to be either a TM or a TE polarization wave with respect to the z axis. Numerical results are presented to show the fi

## Abstract The radiation pattern of an L‐probe coupled patch‐antenna array mounted on a finite conducting cylinder is accurately and efficiently computed by the electric‐field integral equation (EFIE) in conjunction with the method of moments (MoM) and Galerkin's testing procedure. The effects of

and where ␣ 1 , ␤ 1 , ␥ 1 , ␦, and are the constants, defined as follows: ␣ 1 ϭ Ϫ3 ϫ 10 Ϫ6 , ␤ 1 ϭ 2.2 ϫ 10 Ϫ5 , ␥ 1 ϭ 7.7 ϫ 10 Ϫ5 , ␦ ϭ 0.28, and ϭ 11.