DocumentCode
1534605
Title
Properties of a novel noncascaded type, easy-to-design, ripple-free optical bandpass filter
Author
Dingel, Benjamin B. ; Aruga, Tadashi
Author_Institution
Commun. Res. Lab., Minist. of Posts & Telecommun., Tokyo, Japan
Volume
17
Issue
8
fYear
1999
fDate
8/1/1999 12:00:00 AM
Firstpage
1461
Lastpage
1469
Abstract
The chief principle and properties of a novel noncascaded type optical bandpass filter with three unique general characteristics are presented. This device is based on a combination of a Michelson interferometer and a Gires-Tournois resonator (GTR). First, the filter has square-like frequency response with zero ripple, wide flat-top (0.74×bandwidth), unity contrast, sharp steepness, and infinite rejection ratio when GTR front surface mirror reflectance ρ is equal to one-third. Second, this filter possesses variable bandwidth and center wavelength tunability features with simple control mechanism and nanosecond temporal response potential. Third, the desired features of the filter can be synthesized easily by mere inspection since only three parameters are required, and their expressions are given in simple analytic forms. Numerical results showing these features are presented and other characteristics are briefly discussed
Keywords
Michelson interferometers; band-pass filters; frequency response; mirrors; optical communication equipment; optical design techniques; optical filters; optical resonators; reflectivity; wavelength division multiplexing; Gires-Tournois resonator; Michelson interferometer; WDM; center wavelength tunability features; filter possesses variable bandwidth; infinite rejection ratio; nanosecond temporal response potential; noncascaded type easy-to-design ripple-free optical bandpass filter; noncascaded type optical bandpass filter; optical communications equipment; sharp steepness; square-like frequency response; surface mirror reflectance; unique general characteristics; unity contrast; zero ripple; Band pass filters; Filtering theory; Frequency response; Mirrors; Optical filters; Optical interferometry; Optical resonators; Optical surface waves; Reflectivity; Resonator filters;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/50.779169
Filename
779169
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