ELAYACHI , M.

D.E.A. Propagation Télécommunications et Télédétection

International audience

This study is the extension of a work which we have already started on the miniaturization of a printed antenna by using electromagnetic band gap structure (EBG) of mushroom-like type [1]. In addition to the miniaturization, our objective in this study aims to extend the bandwidth and enhanced the gain of this antenna by design of a second EBG...

Our aim in this study is to miniaturize a printed antenna by using a novel electromagnetic band gap (EBG) structure. This study is the extension of a work [4] made on the miniaturization of antenna using the theory of EBG structures, where we employed an EBG mushroom-like structure [1]. This type of structure presents a complexity in the...

The aim of this study is to miniaturize a printed antenna by using Electromagnetic Band Gap (EBG) structures. In a first part, we describe the geometry and the electromagnetic characteristics of the printed antenna. We illustrate in the second part the solution suggestedfor this miniaturization. The ...