Title :
The GN Model of Non-Linear Propagation in Uncompensated Coherent Optical Systems
Author :
Poggiolini, Pierluigi
Author_Institution :
Dipt. di Elettron. e Telecomun., Politec. di Torino, Turin, Italy
Abstract :
This paper is devoted to an in-depth discussion of the Gaussian Noise (GN) model which describes non-linear propagation in uncompensated coherent transmission systems. Similar models and validation efforts are reviewed. Then, the main equations of the GN model are introduced. An intuitive physical interpretation of the equations and their features is proposed. The main characteristics of the non-linear interference (NLI) noise spectra that the GN model produces are discussed. To ease model exploitation, a new formulation in hyperbolic coordinates is proposed, which makes numerical integration faster. New approximate closed-form solutions are also provided. An extension of the GN model to distributed-amplification scenarios is introduced. NLI noise accumulation versus distance and bandwidth are studied in depth. Finally, the GN model implications as to system and networks design and optimization are discussed.
Keywords :
Gaussian noise; amplification; light coherence; light interference; multiwave mixing; numerical analysis; optical design techniques; optical fibre networks; optical noise; GN model; Gaussian noise model; NLI noise spectra; closed-form solutions; distributed-amplification; hyperbolic coordinates; intuitive physical interpretation; network design; network optimization; nonlinear interference noise spectra; nonlinear propagation; numerical integration; uncompensated coherent optical systems; uncompensated coherent transmission systems; Coherence; Gaussian noise; Interference; Mathematical model; Modeling; Predictive models; Wavelength division multiplexing; Coherent systems; GN model; non-linear effects; uncompensated transmission;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2012.2217729
