Title :
20-nm optical wavelength conversion using nondegenerate four-wave mixing
Author :
Tatham, M.C. ; Sherlock, G. ; Westbrook, L.D.
Author_Institution :
British Telecom Res. Labs., Ipswich, UK
Abstract :
Wavelength conversion of optical signals over 20 nm is demonstrated using highly nondegenerate four-wave mixing in a semiconductor traveling-wave optical amplifier. This technique has the potential for extremely-high-speed operation and allows continuous tuning of both input and output wavelengths over the amplifier gain bandwidth. It is demonstrated that, even for such a large wavelength conversion range, it is possible to obtain conversion efficiencies in excess of -10 dB and high extinction ratios. The feasibility of the technique is demonstrated by system measurements at 622 Mb/s, showing a 1.1-dB power penalty at 10/sup -9/ bit error rate (BER).<>
Keywords :
laser tuning; multiwave mixing; optical frequency conversion; optical links; semiconductor lasers; wavelength division multiplexing; 20 nm; 20-nm optical wavelength conversion; 622 Mbit/s; WDM; amplifier gain bandwidth; bit error rate; continuous tuning; conversion efficiencies; extremely-high-speed operation; high extinction ratios; large wavelength conversion range; nondegenerate four-wave mixing; optical signals; power penalty; semiconductor traveling-wave optical amplifier; system measurements; wavelength division multiplexing; Bit error rate; Four-wave mixing; Nonlinear optics; Optical amplifiers; Optical mixing; Optical tuning; Optical wavelength conversion; Semiconductor optical amplifiers; Stimulated emission; Ultraviolet sources;
Journal_Title :
Photonics Technology Letters, IEEE
