Title :
High-resolution photonics-based interference suppression filter with wide passband
Author :
Chan, E.H.W. ; Minasian, R.A.
Author_Institution :
Sch. of Electr. & Inf. Eng. & Australian Photonics CRC, Univ. of Sydney, Australia
Abstract :
A new topology for a photonic signal processor, which overcomes the basic recursive frequency response problem that limits the passband range, is presented. The structure is based on a new multiple-wavelength offset-cavity structure that is cascaded with a series of unbalanced delay line structures. This not only can synthesize a very narrow notch response with good shape factor but also permits a multifold extension of the free spectral range (FSR) and passband width. Results on the interference mitigation filter demonstrate a stopband of 1% of center frequency and a fourfold increase in the FSR and passband width, while also having a very small shape factor, in excellent agreement with predictions.
Keywords :
band-pass filters; delay lines; interference filters; interference suppression; notch filters; optical communication equipment; optical design techniques; optical fibre filters; optical information processing; cascaded structure; free spectral range; high-resolution photonics-based interference suppression filter; interference mitigation filter; multiple-wavelength offset-cavity structure; narrow notch response; passband range; passband width; photonic signal processor; recursive frequency response problem; shape factor; unbalanced delay line structures; wide passband; Band pass filters; Delay lines; Interference suppression; Optical fiber filters; Optical filters; Passband; Radio frequency; Shape; Signal processing; Topology;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.820039
