Title :
The role of thermal chirp in reducing interferometric noise in fiber-optic systems driven by directly modulated DFB lasers
Author :
Cornwell, W.D. ; Andonovic, Ivan ; Zadok, A. ; Tur, Moshe
Author_Institution :
Dept. of Electron. & Electr. Eng., Strathclyde Univ., Glasgow, UK
Abstract :
The presence of relatively short time constants (<20 nS) in the impulse response of the thermal chirp of directly modulated DFB lasers is shown to significantly reduce the deleterious effects of interferometric noise in fiber-optic systems with multipaths. Compared with the chirp-free case of external modulation, thermal chirp can improve crosstalk tolerance by as much as 5 dB for eight interferers at 622 Mb/s and 13 dB at 80 Mb/s. This improvement was studied both theoretically and experimentally for several lasers. Simulations results match the experimental data, while two simplified semi-analytical models provide qualitative description.
Keywords :
chirp modulation; distributed feedback lasers; light interferometry; optical fibre networks; optical fibre theory; optical modulation; thermo-optical effects; 622 Mbit/s; 80 Mbit/s; chirp-free case; crosstalk tolerance; directly modulated DFB lasers; external modulation; impulse response; interferometric noise reduction; multipath fiber-optic systems; qualitative description; relatively short time constants; semi-analytical models; thermal chirp; Chirp modulation; Crosstalk; Distributed feedback devices; Laser noise; Noise reduction; Optical filters; Optical interferometry; Optical noise; Optical receivers; Semiconductor device noise;
Journal_Title :
Lightwave Technology, Journal of
