Title :
Continuously Tunable Optical Buffering at 40 Gb/s for Optical Packet Switching Networks
Author :
Fontaine, Nicolas K. ; Yang, Jie ; Pan, Zhong ; Chu, Sai ; Chen, Wei ; Little, Brent E. ; Ben Yoo, S.J.
Author_Institution :
Electr. & Comput. Eng. Dept., Univ. of California, Davis, CA, USA
Abstract :
All-pass, wavelength-selective, slowlight optical buffers using cascaded micro-ring resonator filters are theoretically and experimentally studied in the context of optical packet switching router architectures. Two optical buffers fabricated in high-index contrast silica technology are compared: an 8-ring buffer with narrow resonances for wavelength selective delay and a 32-ring buffer for distortion-free delay at 10 and 40 Gb/s. Accurate measurements and configurations of the transmission of the buffers allow for precise simulations that accurately predict pattern dependent distortions, signal integrity and performance extrapolation to higher data rates. Continuously tunable delays are demonstrated up to 8 bits with minimal distortion.
Keywords :
extrapolation; micro-optomechanical devices; micromechanical resonators; optical communication equipment; optical distortion; optical fabrication; optical fibre networks; optical filters; optical tuning; packet switching; slow light; telecommunication network routing; bit rate 10 Gbit/s; bit rate 40 Gbit/s; cascaded microring resonator filter; continuously tunable optical buffer fabrication; distortion-free delay; extrapolation method; high-index contrast silica technology; optical packet switching network router architectures; optical pattern dependent distortions; ring buffer; signal integrity; wavelength selective delay; wavelength-selective slow-light buffer; Distortion measurement; Optical buffering; Optical distortion; Optical packet switching; Predictive models; Propagation delay; Resonance; Resonator filters; Silicon compounds; Wavelength measurement; All-pass filter; contention resolution; optical packet switching; slowlight; variable optical buffer;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2008.2004793
