Investigation of several terahertz electromagnetic band gap structures

## Abstract An approach to synthesize electromagnetic band gap (EBG) structures which offer isolation in the desired frequency band is proposed. The methodology treats EBGs as stepped impedance resonators (SIRs) and predicts the fundamental band gap of EBGs from the resonance condition of SIRs. The

## 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 EBG structures exhibit an in‐phase reflection coefficient, which makes them desirable for low‐profile antenna designs. However, a conventional EBG structure has an identical reflection phase for a normally incident plane wave in spite of its polarization state. This paper presents novel

## Abstract This paper presents a simple approach for designing two‐dimensional electromagnetic band gap structures (EBGs). The approach is based on designing a planar band pass filter at a desired center frequency. A simple modification is introduced to the well known design steps of the filter. T

## Abstract In this article the design, fabrication, and testing of several electromagnetic band gap (EBG) structures used to mitigate switching noise in high speed printed circuit boards is presented. Some features of these surfaces are considered as variables and results from different band gap p

## 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