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Optisystem, an Optical Fibre in Linear Regime

Petar Spalevic, Branimir Jaksic, Aleksandar Markovic, Zoran Todorovic, and Vladislav Simic
University of Pristina, Kneza MiloÃ…Â¡a 7 Kosovska Mitrovica 38200, Serbia., Faculty of Electronic at University of NiÃ…Â¡ A. Medvedeva 14, NiÃ…Â¡ 18000, Serbia 3Telekom Srbija, Takovska 2, Beograd, 11100, Serbia.

Abstract: We have developed a package called as Optisystem which is an optical fibre in linear regime. We have studied the Gaussian pulse propagation with fibre with group velocity. The results shown the Gaussian pulse shapes in the characteristic section with velocity dispersion. Further we have presented the velocity dispersion and dispersion induced chirp with results.

Keywords: Gaussian pulse, Group velocity dispersion (GVD), Chirp, Pulse width, Peak power Optisystem, an Optical Fibre in Linear Regime

DOI:https://doi.org/10.6025/jet/2022/13/4/91-97

Full_Text PDF 1.90 MB Download: 91 times

References:

[1] Nilsson-Gistoik, S. (1994). Optical Fiber Theory for Communication Networks. Ericsson: Sweden.
[2] Harte, L. & Eckard, D. (2006). Fiber Optic Basics, Technology, Systems and Installation. Athos Publishing: USA.
[3] Sauter, E.G. (1996). Nonlinear Optics. Wiley: New York, USA.
[4] Agrawal, G.P. (2001). Nonlinear Fiber Optics, 2nd edn. Academic Press: Cambridge, USA.
[5] Yaman, F., Lin, Q., Radic, S. & Agrawal, G.P. (2004) Impact of dispersion fluctuations on dual-pump fiber-optic parametric amplifiers. IEEE Photonics Technology Letters, 16, 1292–1294.
[6] Stefanovic, M., Draca, D., Spalevic, P. & Panajotovic, A. (2005) The influence of crosstalk signal interference to signal propagation along nonlinear and dispersive fiber. Journal of Optical Communications, 26, 9–12.
[7] Katok, V.B. & Kotenko, M. (2001). Kotenko, “Features of Calculation of Wideband Dispersion Compensator for Fiber-Optic Transmission System”. Proceedings of the LFNM 2001, 3rd International Workshop on Laser and Fiber-Optical Networks Modeling, pp. 88–91.
[8] Agrawal, G.P. (2002). Fiberoptic Communication Systems, 3rd edn. Wiley: New York, USA.
[9] Lekie, P., Jakgio, B., Spalevic, P. & Milosavljevie, S. (2010) Analysis of the Interaction of two Solitons and Violation of Their Linear Superposition in the Transmission Path, UNIVERSITY of TECHNOLOGY conference, Vol. 1. Gabrovo, Bulgaria, pp. 307– 311.
[10] Stefanovi, M.O, P (2007) Spalevic, D. Martinovic, M. Petrovic, Comparison of Chirped Interference Influence on Propagation Gaussian and Super Gaussian Pulse Along the Optical Fiber. Journal of Optical Communications, 28.
[11] Stefanovic, M., Draca, D., Spalevic, P. & Panajotovic, A. (2003) Performance of IM-DD optical system in the presence of interference at input of the fiber. Nonlinear Phenomena in Complex Systems, 6, 870–878.
[12] www.optiwave.com.

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