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On timing Jitter in wavelength-division multiplexed soliton systems |
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| Authors: | Mark J. Ablowitz Gino Biondini Sarbarish Chakravarty Rudy L. Horne |
| Affiliation: | a Department of Applied Mathematics, University of Colorado at Boulder, Campus Box 526, Boulder, CO 80309-0526, USA b School of Mathematics, University of New South Wales, Sydney 2052, Australia |
| Abstract: | Collision-induced timing shifts in a wavelength-division multiplexed soliton system are computed when damping, amplification, filtering and positive dispersion management following the loss profile are included. A statistical analysis is presented which takes into account the resulting effect of the large number of collisions occurring in the fiber. Analytic expressions are derived for the root mean square timing jitter and the maximum length of error-free transmission with an arbitrary number of channels. An extensive analysis of system performance corresponding to situations with and without filters and/or dispersion management is carried out. |
| Keywords: | Optical communication Frequency division multiplexing Solitons Light interference Amplification Signal filtering and prediction Electromagnetic dispersion Optical fibers Statistical methods Error analysis Communication channels (information theory) Optical filters Wavelength division multiplexed soliton systems Root mean square timing jitter |
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