Title :
Efficient architectures for exactly realizing optical filters with optimum bandpass designs
Author_Institution :
Bell Labs. Innovations, Lucent Technol., Murray Hill, NJ, USA
Abstract :
Butterworth, Chebyshev, and elliptic bandpass filter designs are optimal in the sense of band flatness or equiripple characteristics. A new architecture using optical all-pass filters is presented which can realize these designs exactly and efficiently using either ring resonators or reflectors such as Bragg gratings or thin-film interference filters. Design examples are given for a seventh- and eighth-order elliptic filter, and the new architecture is shown to be tolerant to loss. Previously, reflective filters could only approximate optimal responses. An order of magnitude improvement in transition width is demonstrated for an elliptic filter compared to an optimized transmission response for an individual thin-film filter.
Keywords :
band-pass filters; interference filters; optical communication equipment; optical design techniques; optical films; optical resonators; optical waveguide filters; optical waveguides; optimisation; reflectivity; Bragg gratings; band flatness; design examples; efficient architectures; elliptic bandpass filter designs; elliptic filter; equiripple characteristics; exactly realizing optical filters; loss tolerance; new architecture; optical all-pass filters; optical thin-film filter; optical waveguide filters; optimal; optimal responses; optimized transmission response; optimum bandpass designs; reflective filters; ring reflectors; ring resonators; thin-film interference filters; transition width; Band pass filters; Bragg gratings; Chebyshev approximation; Interference; Optical design; Optical films; Optical filters; Optical ring resonators; Optical sensors; Resonator filters;
Journal_Title :
Photonics Technology Letters, IEEE
