Title :
Optical Processing with Slow Wave Structures: Properties and Applications
Author :
Melloni, A. ; Morichetti, F. ; Persia, F. ; Canavesi, C. ; Siano, R. ; Martinelli, M.
Author_Institution :
Dipartamento di Electtronica e Informazione, Politecnico di Milano, Milan
Abstract :
The possibility of dynamically controlling the speed of light can be extremely useful in all the optical applications where a variable delay is needed, such as bit and frame synchronization and optical storage. To this aim, coupled resonator slow-wave structures (SWSs) represent a promising approach to slow down the propagation of optical signals with as large bandwidths as required by optical communication systems. We show that by suitably setting the rings´ resonances, SWSs can act efficiently as tunable delay lines, with the overall time delay being continuously adjustable from zero to a maximum value, typically limited by the effects of loss and dispersion. Every ring of the structure can be used as an optical gate and optical pulses can also be trapped and released by the SWS, so as to realize an optical memory or buffer. A time delay of 300 ps and a slowing ratio of 7.5 over a 3.3 GHz bandwidth are experimentally demonstrated in SWSs realized in silicon oxynitride technology
Keywords :
delays; integrated optics; optical communication; optical couplers; optical delay lines; optical logic; optical resonators; optical storage; 3.3 GHz; 300 ps; coupled resonator; optical gate; optical memory; silicon oxynitride technology; slow wave structures; tunable delay lines; variable delay; Bandwidth; Delay effects; Lighting control; Optical buffering; Optical control; Optical coupling; Optical propagation; Optical resonators; Optical variables control; Ultraviolet sources; integrated optics devices; optical processing; resonators;
Conference_Titel :
Transparent Optical Networks, 2006 International Conference on
Conference_Location :
Nottingham
Print_ISBN :
1-4244-0235-2
Electronic_ISBN :
1-4244-0236-0
DOI :
10.1109/ICTON.2006.248373
