High-gain 1D EBG resonator antenna

## Abstract High‐gain and ultrathin cavity antennas consisting of conventional rectangular patch antenna and partially reflective surface (PRS) are investigated in the article.PRS is made of periodic distinct metallic patterns on the both sides of the single dielectric slab. The geometry is simpler

## 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 Fabry–Perot resonators with EBG or FSS cover are introduced to enhance the gain of printed antenna. Based on a systematic comparison study, two kinds of optimization designs are proposed for enhancing the gain and reducing the backward radiation. The validation of the simulated and expe

## Abstract A printed dipole antenna showing high gain (about 6.8 dBi) radiation in the azimuthal plane is presented. The dipole antenna has a narrow width of 10 mm and a total length of about 202 mm (with 1.64 wavelengths of the frequency at 2442 MHz, the center frequency of the 2.4‐GHz WLAN band)

## Abstract Transmission line and monopole antenna embedded with one‐dimensional electromagnetic bandgap (1D EBG) structure were designed, fabricated, and characterized. The slow wave characteristics of a 1D EBG cell were verified using an electro‐optic near‐field mapping system. The group velocity

## Abstract In this paper, we introduce a novel design for a high‐directivity Electromagnetic Band Gap (EBG) resonator antenna that utilizes a frequency‐selective surface (FSS) superstrate. The above type of superstrate is proposed as an alternative to an EBG type of dielectric superstrate—investig