Analysis of a circular chiral ferrite dielectric waveguide

## Abstract The microwave ferrite variable polarizer in a square waveguide is investigated in this Letter. The nodal finite‐element method (FEM) is employed to analyze the differential phase shift characteristic of the device. The numerical and experimental results all indicate that the dielectric

## Abstract High‐order modes are a problem in the design of many ferrite devices. The characteristic equation for the modes in a ferrite variable polarizer, implemented in a dielectric‐filled circular waveguide, is obtained using the mode‐matching method. The conditions to guarantee single‐mode (TE

In this article, an approach is presented to compute the scattering parameters of the ferrite-loaded waveguide discontinuity using the finite-element method (FEM) and perfectly matched layers (PMLs). The propagation constants of a uniform ferrite-loaded waveguide are first calculated to validate the

## Abstract A circular patch antenna tuned by a ferrite post is presented. The DC‐biasing magnetic field is assumed perpendicular to the patch and the ferrite losses are taken into account. Both right‐ and left‐hand circular polarizations are considered. The “perfect magnetic walls” approximation i

## Abstract A rigorous analysis of the temperature characteristics of a ferrite phase shifter in a grooved waveguide is carried out by using a combination of analytical and numerical methods. The numerical results are found to be in agreement with our measurements. The results obtained provide valu