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Slow light enabled wavelength demultiplexing

Author
Hayran, Z.; Turduev, M.; Botey, M.; Herrero, R.; Staliunas, K.; Kurt, H.
Type of activity
Presentation of work at congresses
Name of edition
18th International Conference on Transparent Optical Networks
Date of publication
2016
Presentation's date
2016-07
Book of congress proceedings
2016 18th International Conference on Transparent Optical Networks (ICTON 2016): Trento, Italy: 10-14 July 2016
First page
1
Last page
4
Publisher
Institute of Electrical and Electronics Engineers (IEEE)
DOI
https://doi.org/10.1109/ICTON.2016.7550306 Open in new window
Repository
http://hdl.handle.net/2117/100768 Open in new window
Abstract
Photonic crystal waveguides supporting band gap guided modes hold great potential to tailor the group velocity of propagating light. We propose and explore different wavelength demultiplexer design approaches that utilize slow light concept. By altering the dielectric filling factors of each waveguide segment, one can show that different frequencies can be separated and extracted at different locations along the cascaded waveguide. Furthermore, to eliminate the inherent reflection loss of such a...
Citation
Hayran, Z., Turduev, M., Botey, M., Herrero, R., Staliunas, K., Kurt, H. Slow light enabled wavelength demultiplexing. A: International Conference on Transparent Optical Networks. "2016 18th International Conference on Transparent Optical Networks (ICTON 2016): Trento, Italy: 10-14 July 2016". Trento: Institute of Electrical and Electronics Engineers (IEEE), 2016.
Keywords
Backward propagating waves, Cascaded waveguides, Demultiplexing, Different frequency, Energy gap, Experimental verification, Fiber optic networks, Laser optics, Optical waveguides, Photonic band gap, Photonic crystal waveguide, Photonic crystals, Resonators, Transparent optical networks, Wave propagation, Wave transmission, Waveguides, Wavelength demultiplexers, Wavelength demultiplexing, Wavelengthselective devices
Group of research
DONLL - Nonlinear dynamics, nonlinear optics and lasers

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