Title :
EBG identification by the Reflection Phase Method (RPM) design for application WiFi antenna
Author :
ELAYACHI, Moussa ; Brachat, Patrice ; Ratajczak, Philippe
Author_Institution :
France Telecom R&D, La Turbie
Abstract :
In a first part of this article, we present the method based on the reflection phase diagram for the identification of the EBG (electromagnetic band gap) structures. The procedure consists to plot the diagram of phase of the wave reflected by EBG structure excited by an incident wave, in the simplest case, plane and normal upon the structure. The forbidden band corresponds to the frequency band where the phase of the reflected wave is equal to 0plusmn45deg, criterion of Sievenpiper, or to 90plusmn45deg, criterion of Rahmat-Samii. In the filtered frequency band, the structure behaves as a magnetic conductor : a High-impedance surface. The EBG structure studied and designed is a Mushroom-like (D. Sievenpiper et al., 1999). The performances of this structure are modelled using the HFSS code. In the second part, we illustrate the application aimed by the design of this structure.
Keywords :
antennas; electromagnetic wave reflection; photonic band gap; wireless LAN; EBG identification; WiFi antenna; electromagnetic band gap structures; filtered frequency band; high-impedance surface; magnetic conductor; reflection phase method; Conductors; Design methodology; Electromagnetic propagation; Electromagnetic reflection; Frequency; Magnetic separation; Metamaterials; Optical reflection; Periodic structures; Reflector antennas; Electromagnetic Band Gap (EBG) structures; High-Impedance Surface (HIS); Reflection Phase Diagram (RPM); magnetic conductor;
Conference_Titel :
Antennas and Propagation, 2006. EuCAP 2006. First European Conference on
Conference_Location :
Nice
Print_ISBN :
978-92-9092-937-6
DOI :
10.1109/EUCAP.2006.4584919
