Analysis of waveguide Tee-junctions with discontinuities using FDTD

## The finite-difference-time-domain (FDTD) method is applied to model some discontinuities that are present in C-band beam-foming networks. In particular, a branch line coupler, a phase shifter, and a slope equalizer are modeled. A FDTD algorithm, which makes use of nonunifom grids and a syntheti

Bilayers comprising two matched layers of dielectric thin-( ) film helicoidal bianisotropic mediums TFHBMs with opposite structural handedness can be designed to almost perfectly reflect arbitrarily polarized normally incident plane wa¨es at certain frequencies. TFHBM bilayers can therefore ser¨e as

## Abstract The finite difference time domain (FDTD) analysis of iris‐coupled circular waveguide filters presents several challenges because they contain curved metal surfaces and electrically small slots. In this contribution it is shown that by enhancing the basic FDTD algorithm in three ways, fi

Finite-difference time-domain (FDTD) full-wave analysis of several waveguide junction circulators with full-height ferrite posts of arbitrary shapes is presented. The structures contain T-junction, irregular T-junction, Y-junction, and Y-junction with a bend. Two ferrite shapes of interest are studi

## Abstract The domain‐product technique is applied to modeling of H‐ and E‐plane loaded waveguide junctions with a rectangular connecting cavity. A specific use of the edge condition accelerates the convergence of the solution. Very high efficiency of the technique is demonstrated by the example o

## Abstract The finite element method is formulated in such a way that the electromagnetic solution of an excited cavity formed from an N‐port waveguides junction leads directly and naturally to circuit characteristics of this junction. The use of edge‐elements eliminates nonphysical solutions. The