Analysis of frequency-selective surfaces on a biased ferrite substrate

ishes. Again, the effect of the presence of a surface wave is apparent in the Figure . It has also been verified that the copolar component of the field coincides, in the limit p' -+ a/2, with the expressions obtained by the application of the standard Maliuzhinets method, valid at normal incidence.

The dyadic Green's function of frequency-selective surfaces (FSSs) on an anisotropic layer is determined using the Hertz vector-potential method. The structure analyzed is composed by a periodic array of conducting patch elements. Three different patch geometries are considered. The results for the

## Abstract The finite‐difference time‐domain (FDTD) method is used to model the response of microstrip patch antennas on magnetized ferrite substrates. The proposed FDTD model utilizes the auxiliary differential equation approach to represent the frequency dependent permeability tensor in the time