Title :
Compact EBG for Multi-Band Applications
Author :
Lin Peng ; Cheng-li Ruan ; Jiang Xiong
Author_Institution :
Inst. of Appl. Phys., Univ. of Electron. Sci. & Technol. of China, Chengdu, China
Abstract :
A novel electromagnetic band-gap (EBG) structure with a compact size and multi-band-gaps is proposed. The proposed EBG (denoted as DAU-EBG) is formed by etching dual U-shaped slots symmetrically with respect to one axis of the edge-located vias mushroom-type EBG (ELV-EBG). As the surface current paths of the DAU-EBG are prolonged by the etched U slots, the size of our proposed DAU-EBG is only 25.9% of the conventional mushroom-type EBG (CMT-EBG) and 37.3% of the ELV-EBG. Due to the asymmetry introduced by the dual U slots, different band-gap properties in X- and Y-directions are obtained. Three band-gaps and two band-gaps are achieved in X- and Y-directions, respectively. The working mechanism of the proposed EBG and some parameter study are also given. This DAU-EBG can find its use in future compact multi-band rejection applications.
Keywords :
energy gap; photonic crystals; CMT-EBG; DAU-EBG; ELV-EBG; band-gap properties; compact EBG; compact multiband rejection applications; dual U-shaped slots; edge-located EBG; electromagnetic band-gap structure; etched U slots; multiband applications; multiband-gaps; mushroom-type EBG; Antennas; Dispersion; Metamaterials; Photonic band gap; Resonant frequency; Surface impedance; Compact; electromagnetic band-gap (EBG); multi-band-gaps; surface wave suppression;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2012.2207036
