Title :
Noise caused by semiconductor lasers in high-speed fiber-optic links
Author :
Olsen, C.M. ; Stubkjaer, K.E. ; Olesen, H.
Author_Institution :
Electromagn. Inst., Tech. Univ. of Denmark, Lyngby, Denmark
fDate :
4/1/1989 12:00:00 AM
Abstract :
Theoretical and experimental results are presented for the signal-to-noise (S/N) ratio caused by mode partition noise, intensity noise, and reflection-induced noise in optical data links. Under given conditions an additional noise source with a S/N ratio of 20 dB will cause a power penalty of 1 dB in order to maintain a 10/sup -9/ bit error rate. From numerical simulations the authors predict the maximum allowable dispersion in the presence of mode partition noise to be approximately 40% of a clock period. This figure is almost independent of bit rate and laser structure and agrees well with the measurements and with results of other workers. Numerical simulations of a buried-heterostructure and a TJS laser were carried out at four bit rates from 565 Mbit/s to 4.5 Gbit/s and the measurements were done at 2.2 Gbit/s using a TJS laser.<>
Keywords :
high-speed optical techniques; laser beams; noise; optical fibres; optical links; optical noise measurement; semiconductor junction lasers; 2.2 Gbit/s; 565 Mbit/s to 4.5 Gbit/s; TJS laser; bit error rate; buried-heterostructure laser; high-speed fiber-optic links; intensity noise; mode partition noise; optical data links; power penalty; reflection-induced noise; semiconductor lasers; signal-to-noise ratio; Bit rate; Fiber lasers; Laser modes; Laser noise; Laser theory; Numerical simulation; Optical noise; Semiconductor device noise; Semiconductor lasers; Signal to noise ratio;
Journal_Title :
Lightwave Technology, Journal of
