Title :
Multiple-frequency-tuned photonic bandgap microstrip structures
Author :
Laso, Miguel A G ; Lopetegi, Txema ; Erro, Maria J. ; Benito, David ; Garde, Maria J. ; Sorolla, Mario
Author_Institution :
Dept. of Electr. & Electron. Eng., Public Univ. of Navarre, Pamplona, Spain
fDate :
6/1/2000 12:00:00 AM
Abstract :
Photonic bandgap (PBG) structures in microstrip technology have been recently proposed as efficient Bragg reflectors. The periodic patterns employed until now were formed by a distribution of nonconnected holes (cermet topology) etched in the ground plane or drilled in the dielectric substrate, giving rise to single-frequency-tuned band reflectors. In this letter, a novel pattern that follows a continuous profile (network topology) is proposed to simultaneously reject multiple frequency bands. It is formed by the addition of various sinusoidal functions tuned at the design frequencies. Measurements performed for two-and three-frequency-tuned PBG microstrip prototypes show that multiple deep and wide stopbands can be obtained using these novel devices
Keywords :
Bragg gratings; microstrip filters; microwave photonics; photonic band gap; Bragg reflectors; continuous profile; network topology; periodic patterns; photonic bandgap microstrip structures; single-frequency-tuned band reflectors; sinusoidal functions; stopbands; Ceramics; Dielectric measurements; Dielectric substrates; Etching; Frequency; Microstrip; Network topology; Performance evaluation; Photonic band gap; Prototypes;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
