Title :
Electromagnetic band-gap structures for multiband mitigation of resonant modes in parallel-plate waveguides
Author :
Kamgaing, Telesphor ; Ramahi, Omar M.
Author_Institution :
Microwave & Mixed-Signal Technol. Lab., Motorola SPS, Tempe, AZ, USA
Abstract :
A novel electromagnetic band-gap structure (EBG), whose surface impedance is primarily controlled by its inductance per unit area, is presented. This EBG, which exhibits two wide forbidden band-gaps at very low frequencies, is applied to mitigating resonant modes in parallel-plate waveguides. It is shown that the two forbidden band-gaps can either be controlled independently by varying the physical separation between adjacent patches or simultaneously by varying the number of turns of the spiral inductor used in the patch of the unit cell.
Keywords :
inductance; inductors; parallel plate waveguides; photonic crystals; EBG; electromagnetic band-gap structure; inductance per unit area; multiband mitigation; parallel-plate waveguides; physical separation; resonant modes; spiral inductor turns; surface impedance; unit cell patch; wide forbidden band-gaps; Electromagnetic waveguides; Frequency; Inductance; Inductors; Metamaterials; Periodic structures; Photonic band gap; Resonance; Spirals; Surface impedance;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2004. IEEE
Print_ISBN :
0-7803-8302-8
DOI :
10.1109/APS.2004.1330119
