Title :
Generalized Transition Matrix for a Multilayered Scatterer With Arbitrary Interfaces
Author :
Xiao, Gaobiao ; Mao, Junfa ; Zhou, Liang
Author_Institution :
Shanghai Jiao Tong Univ., Shanghai, China
Abstract :
A numerical method is presented to evaluate the electromagnetic characteristics of a multilayered scatterer with arbitrary interfaces. By using Huygens principle, each interface is modeled with a generalized two-port device. A generalized transfer matrix is introduced to characterize the interface. Each homogeneous layer between two interfaces is modeled with a transmission line. The multilayered scatterer is analyzed using cascaded network techniques. A generalized transition matrix is defined on the outermost surface of the scatterer, which relates the rotated tangential scattered field components to the rotated tangential incident field components directly. Numerical results of multilayered scatterers with arbitrarily-shaped interfaces are provided to show that this method is effective.
Keywords :
cascade networks; electromagnetic wave scattering; transfer function matrices; two-port networks; Huygens principle; arbitrary interfaces; cascaded network techniques; generalized transfer matrix; generalized transition matrix; generalized two-port device; homogeneous layer; multilayered scatterer; tangential incident field components; tangential scattered field components; transmission line; Acoustic scattering; Computer interfaces; Electromagnetic scattering; Frequency domain analysis; Integral equations; Large-scale systems; Linear systems; Permittivity; Shape; Transmission line matrix methods; Electromagnetic scattering; Huygens principle; generalized transition matrix; multilayered medium;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2009.2028680
