Miniaturization of electromagnetic band gap structures for mobile applications

## 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 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

## Abstract Several THz electromagnetic band gap (EBG) structures are investigated and demonstrated.Various design, fabrication, and characterization methods and techniques are utilized and compared. These THz EBG structures may enable future high performance EBG based THz components. © 2010 Wiley

## 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