Title :
General solution for propagation, radiation and scattering in arbitrary 3D inhomogeneous structures
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
A versatile technique for obtaining the full-wave characteristics of structures composed of conductors and dielectrics is described. It involves the replacement of the dielectric regions by an equivalent interlocking array of thin-wall sections, to which appropriate surface impedances are then attributed. Through the use of a two-dimensional rooftop current representation and line-function testing of the electric field, matrix equations appropriate for propagation, radiation, and scattering problems are generated and solved. The focus is on the physical principles, and the usefulness of the approach is demonstrated by solving a wide variety of practical problems.<>
Keywords :
antenna theory; electromagnetic wave propagation; electromagnetic wave scattering; waveguide theory; antennas; arbitrary 3D inhomogeneous structures; conductors; dielectrics; electric field; electromagnetic propagation; electromagnetic radiation; electromagnetic scattering; equivalent interlocking array; full-wave characteristics; line-function testing; matrix equations; physical principles; surface impedances; thin-wall sections; two-dimensional rooftop current representation; waveguides; Conductors; Dielectrics; Integral equations; Microstrip antennas; Polarization; Scattering; Sparse matrices; Surface impedance; Testing; Thin wall structures;
Journal_Title :
Antennas and Propagation Magazine, IEEE
