3D analysis of a quasi circular microstrip antenna by finite element method

## Abstract A high‐order vector finite‐element method (FEM) is presented for the analysis of 3D frequency‐selective structures (FSSs). The asymptotic waveform evaluation (AWE) technique is combined with the FEM to perform fast frequency and angular sweeps. Reflection/transmission characteristics of

patterns at 5.23 GHz for the port-1 and port-2 excitations of the antenna with optimal dimensions in this study. Note that the antenna was placed vertically in the anechoic chamber for the measurements, and the receiving antenna is aligned to be parallel to the monopole (1 or 2) under test. That is,

## Abstract A procedure for dielectric‐loaded filter design on a step‐by‐step basis is presented. A full‐wave 3‐D finite‐element segmentation method is used. The structure is segmented into blocks whose generalized scattering matrix is computed, using analytical solutions when possible. The filter

## Abstract A robust generalized minimal residual recursive (GMRESR) iterative method is proposed to solve a large system of linear equations resulting from the use of an un‐gauged vector‐potential formulation of finite element method (FEM). This method involves an outer generalized conjugate resid

This letter discusses the basic philosophy of a fully three-dimensional finite-element method for collector design together with its main features. In particular, attention is focused on the dedicated mesh generator and the strategy followed for the solution of the coupled electromagnetic and motion

## Abstract The analysis of structures with complex geometries leads to the use of three‐dimensional numerical methods. Such devices can be unmanageable unless a segmentation technique is applied. In this work, a hybrid 3D finite‐element‐mode matching method, based on the generalized admittance mat