Suppression of nonlinear intrachannel interactions between return-to-zero pulses in dispersion-managed optical transmission systems
- 1 March 2002
- journal article
- Published by Optica Publishing Group in Journal of the Optical Society of America B
- Vol. 19 (3), 440-447
- https://doi.org/10.1364/josab.19.000440
Abstract
Strong dispersion management, in which an optical pulse is highly dispersed and the pulse width is extremely broadened, can suppress nonlinear interactions such as cross-phase modulation between neighboring pulses in optical time-division-multiplexed systems, but it causes intrachannel four-wave mixing, which is an obstacle to achieving high performance in the system. We study the physical mechanism of intrachannel four-wave mixing. The dependence of the effect on the initial pulse width, the initial phase difference, and the dispersion map is also discussed, and we conclude that a narrower initial pulse, a larger accumulated dispersion, or both are effective in suppressing the effect of four-wave mixing.Keywords
This publication has 15 references indexed in Scilit:
- Resonant nonlinear intrachannel interactions in strongly dispersion-managed transmission systemsOptics Letters, 2000
- System impact of intra-channel nonlinear effects in highly dispersed optical pulse transmissionIEEE Photonics Technology Letters, 2000
- Analysis of intrachannel nonlinear effects in highly dispersed optical pulse transmissionIEEE Photonics Technology Letters, 2000
- Pulse-overlapped dispersion-managed data transmission and intrachannel four-wave mixingOptics Letters, 1999
- Intra-channel cross-phase modulation and four-wave mixing in high-speed TDM systemsElectronics Letters, 1999
- Analysis of interaction between stretched pulses propagating in dispersion-managed fibersIEEE Photonics Technology Letters, 1998
- Influence of inter-bit four-wave mixing in optical TDM transmissionElectronics Letters, 1998
- Dispersion-managed soliton interactions in optical fibersOptics Letters, 1997
- Enhanced power solitons in optical fibres with periodic dispersion managementElectronics Letters, 1996
- Reduction of Gordon-Haus timing jitter by periodic dispersion compensation in soliton transmissionElectronics Letters, 1995