Analysis of patch antennas on a multilayer substrate with a embedded periodic structure

## Abstract In this article, the analysis of disk patch antenna with two parasitic elements in single layer and in multilayer layer configurations is presented. The bandwidth of the antenna significantly depends on gap separation (__s__) and thickness __h__~2~. Bandwidth of the antenna in single‐la

A microstrip antenna with fractal multilayer substrates is studied by using an iterative method based on the concept of waves. A two-dimensional fast Fourier transformation algorithm is introduced to simplify calculations and accelerate the convergence with reduced central processing unit time. Good

## Abstract The finite‐element method (FEM) is applied to analyze a thin substrate antenna with shorting posts. The resonant frequency of this kind of antenna is studied and compared with other numerical result and experimental data. © 2004 Wiley Periodicals, Inc. Microwave Opt Technol Lett 41: 47–

## 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

## Abstract The analysis of stacked patch antenna with two parasitic elements is presented. The antenna shows improved radiation and directivity by 6.57 dB when compared with single layer patch antenna. The bandwidth of the antenna is found to be dependent on various parameters such as h~1~, h~2~,

## Abstract In this paper, we investigate the theoretical behavior of microstrip antennas on tapered ferrite substrates. A full‐wave analysis in the spectral domain is developed to provide antenna bandwidth enhancement as a function of linear variations in the substrate‐height profile that supports