Electromagnetic scattering from an eccentric multilayered circular cylinder
Abstract
Electromagnetic scattering from an eccentric multilayered, homogeneous, circular cylinder is derived rigorously by using a boundary value modematching approach. The layers are assumed to be infinite in length and their axes are parallel to each other but their centers may have arbitrary coordinates. The composite arrangement is illuminated by a cylindrical wave from a line source of infinite extent in a direction parallel to the cylinder axis. The problem is twodimensional and the solution to both types of polarization is presented. The effects of various geometrical and electrical parameters on the near and farfield patterns are examined.
 Publication:

IEEE Transactions on Antennas and Propagation
 Pub Date:
 March 1992
 DOI:
 10.1109/8.135472
 Bibcode:
 1992ITAP...40..295K
 Keywords:

 Antenna Radiation Patterns;
 Boundary Value Problems;
 Circular Cylinders;
 Electromagnetic Scattering;
 Polarization (Waves);
 Circular Waveguides;
 Composite Structures;
 Far Fields;
 Matrices (Mathematics);
 Near Fields;
 Plane Waves;
 Transverse Waves;
 Communications and Radar