Title :
Pattern Dependence of Data Distortion in Slow-Light Elements
Author :
Zhang, Lin ; Luo, Ting ; Yu, Changyuan ; Zhang, Wen ; Willner, Alan E.
Author_Institution :
Southern California Univ., Los Angeles
fDate :
7/1/2007 12:00:00 AM
Abstract :
Slow light has been proposed as a potential solution to all-optically tunable delay line. However, a slow-light element may degrade data quality in an optical communication system while decreasing group velocity of optical pulses. In this paper, pattern dependence of signal distortion is identified as a main reason for data degradation, which is caused by narrow-band amplitude and phase responses of the slow-light elements. We define figure of merit involving pulse delay and data degradation to optimize slow-light devices. It is shown that the pattern dependence can be reduced by detuning slow-light devices away from the signal carrier frequency, which allows using narrow-band slow-light techniques to increase normalized delay up to 0.8, with Q improvement of 2 dB.
Keywords :
buffer circuits; optical communication equipment; optical delay lines; optical distortion; optical information processing; optical tuning; all-optically tunable delay line; data distortion; data quality degradation; detuning; figure of merit; narrow-band amplitude; narrow-band slow-light techniques; optical buffer; optical communication system; optical pulses; pattern dependence; phase response; pulse delay; signal carrier frequency; signal distortion; slow-light elements; Degradation; Delay lines; Frequency; Narrowband; Optical distortion; Optical fiber communication; Optical pulses; Phase distortion; Signal processing; Slow light; Fast light; optical buffer; optical communication; optical delay; pattern dependence; slow light;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.899166
