An electromagnetic bandgap resonator antenna

## Abstract The input impedance of directive electromagnetic bandgap (EBG) resonator antennas is studied theoretically and experimentally at millimeter‐wave frequencies. These antennas consist of a printed primary source illuminating a metallo‐dielectric EBG radome through a free‐space coupling reg

## Abstract This paper presents a theoretical method used to realize a 1‐D photonic bandgap (PBG) resonator antenna. Studies in the frequency and space domain were made to determine the properties of the material. Then a 1‐D PBG resonator antenna was designed, and some characteristics of the antenn

## Abstract A novel tri‐band electromagnetic bandgap (EBG) fed coplanar slot antenna is proposed and adopted for this investigation. With the integration of the EBG as an impedance matching element, a wider impedance bandwidth response is obtained for all the bands. Analytical expression for design

## Abstract An electromagnetic bandgap (EBG) surface is utilized as a ground plane for a curl antenna to achieve a low‐profile design as well as a circularly polarized pattern. The antenna height is greatly reduced compared to a normal curl antenna over a PEC ground plane. The frequency bandgap and