Electromagnetic compatibility of aperture antennas using electromagnetic band gap structure

## 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 In this article, a novel concept of electromagnetic band‐gap (EBG) antenna is proposed: dual/multiple band antenna resonances can be achieved using a single patch radiator based on layered EBG substrates. The generalized design procedure is presented. Experimental results demonstrate go

## Abstract Recently, the electromagnetic band‐gap (EBG) material, also known as photonic crystals, has been successfully used to suppress surface‐wave for the patch antenna. In this article, a sectoral horn antenna with the mushroom‐like EBG material is designed to enhance its gain. A flange plate

## 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