Title :
Calculation of bit-error probability for a lightwave system with optical amplifiers and post-detection Gaussian noise
Author :
Marcuse, Dietrich
Author_Institution :
AT&T Bell Lab., Holmdel, NJ, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
The author´s previously published results (ibid., vol.8, p.1816-23, 1990) which dealt with the bit-error probability of a lightwave communication system whose noise contribution was exclusively attributed to spontaneous emission noise of optical amplifiers are extended. The earlier theory was based on an NRZ (nonreturn-to-zero) modulation format with zero signal power assigned to logical zeros. The extension is based on the same mathematical technique but includes Gaussian noise originating after the signal has been converted to an electrical current. This noise could be thermal noise, shot noise, or a combination of both. It is no longer assumed that the pulse representing a logical one fills its time slot completely. Now, the optical pulses can be much shorter than the bit period (solitons), the power level of logical zeros need not vanish, and the thermal noise of the postdetection electronic circuit is taken into account
Keywords :
errors; optical links; probability; solitons; thermal noise; bit period; bit-error probability; electrical current; lightwave system; logical zeros; nonreturn-to-zero modulation; optical amplifiers; optical pulses; post-detection Gaussian noise; postdetection electronic circuit; shot noise; solitons; spontaneous emission noise; thermal noise; zero signal power; Communication systems; Optical amplifiers; Optical modulation; Optical noise; Optical pulses; Optical solitons; Probability; Semiconductor optical amplifiers; Spontaneous emission; Stimulated emission;
Journal_Title :
Lightwave Technology, Journal of
