Use of electromagnetic band-gap materials for RCS reduction

## Abstract This paper presents the analysis of an adaptive antenna that is formed of a dipole antenna above a ground plane in the presence of electromagnetic band gap (EBG) metallic structures. Electromagnetic simulations are performed using the method of moments (MoM) and the obtained results sho

## Abstract Miniaturized electromagnetic band‐gap (EBG) structures suitable for hand‐held devices at 1.575 and 2.4 GHz frequency bands are presented. To miniaturize the structures, a ceramic substrate with relative permittivity of 82 is used to obtain a period of the order of 2.6–3.5 mm. Simulation

## Abstract Study of electromagnetic band‐gap (EBG) structures has become a hot topic in computational electromagnetics. In this article, some EBG structures integrated inside a circular waveguide are studied. They are formed by a series of air‐gaps within a circular dielectric‐filled waveguide. A

## A finite thickness slab of two-dimensional photonic band-gap (PBG) material is analyzed to determine the plane-waue reflection and transmission coefficients as functions of the angle of incidence. It is shown that within the band-gap, where there is total reflection, the reflection is equivalen

## Abstract A novel EBG structure is proposed for a tunable and wide stop band (band gap). Although the proposed EBG, which consists of two microstrip open‐loop resonators located back to back, has only one unit cell inserted into the microstrip; it produces the characteristics of the general EBG s