Title :
Polarization-independent "figure-eight" birefringent Sagnac variable comb-filter/attenuator
Author :
Kim, Sungwon ; Kang, Jin U.
Author_Institution :
Dept. of Phys., Republic of Korea Air Force Acad., Choongbuk, South Korea
Abstract :
We propose and theoretically analyze a multifunctional integrated optical device based on figure-eight shaped birefringent Sagnac loops. Our analysis shows that the propose device exhibits many unique features which allows it to operate as a tunable high-Q comb filter with a good channel isolation. In addition, the intensity transmission of the filter can be varied from 0% to 100%. It is also shown that the different combinations of the polarization rotations in the loops allow tunability in 1) comb filter channel spacing; 2) transmission attenuation; 3) dc offset; 4) filter modulation depth; and 5) channel isolation. The device can be easily implemented based on optical fibers or integrated waveguide structures.
Keywords :
birefringence; comb filters; integrated optics; light polarisation; optical attenuators; optical communication equipment; optical fibre filters; optical modulation; optical tuning; DC offset; channel isolation; comb filter channel spacing; figure-eight shaped birefringent Sagnac loops; filter intensity transmission; filter modulation depth; integrated waveguide structures; multifunctional integrated optical devices; polarization rotations; polarization-independent figure eight birefringent Sagnac variable attenuator; polarization-independent figure eight birefringent Sagnac variable comb-filter; transmission attenuation; tunable high-Q comb filter; Attenuators; Birefringence; Channel spacing; Optical devices; Optical fiber filters; Optical fiber polarization; Optical filters; Optical polarization; Optical waveguides; Sagnac interferometers;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2003.823087
