Estimate the Attenuation and Simulation of dispersion Gaussian pulses propagation in a Single Mode Optical Fiber
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Abstract
we studied Attenuation in Fiber Optics, we used two type of Fibers (Plastic and glass) with length (0.5,5,20m) and (1,20,100m) respectively and used two wavelength laser (660nm, 850nm), we found attenuation increase with 850nm wavelength and 660nm wavelength are the best for the plastic fiber optics, in addition the attenuation which occur from axial gap, axes rotation, inclination angle, transversal displacement are investigated. Influence three values of linear dispersion on Pulse propagation along fiber at seam distance is investigated by simulation using Fourier Method using MATLAB.
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References
[1] Jenny R. “Fundamentals of Fiber Optics: An Introduction for Beginners”, Volpi Manufacturing USA Co., Inc. pp. 1-22. (2000).
[2] Hakim S. A. “Attenuation and Dispersion in Optical Communication”, Dhaka: Bangladesh Communications Company Limited. (2010).
[3] Abramczyk H. Dispersion “Phenomena in Optical Fibers”, Poland: Technical University of Lodz. (2008).
[4] Tenaga Nasional Berhad,”Telecommunication Guideline”, ICT Division, Vol. 3, pp. 75.(2012).
[5] Charles Kuen Kao, Willard S. Boyle, and George E. Smith,”Transmission of light by fibers for optical communication”, Nobel Prize in Physics (2009), contributions to science, 7(2):109–115 (2011).
[6] K.A.Lathief,”Attenuation Measurement in Optical Fiber Communication”, International Journal of Research Studies in Science, Engineering and Technology [IJRSSET], Vol. 1, Issue 4, PP 62-67, (2014).
[7] S. H. S. Al-Bazzaz, "Simulation of Single mode fiber optics and optical communication Components Using VC++," International Journal of Computer Science and Network Security, vol. 8, pp. 300-308, (2008).
[8] M. Grabka, B. Wajnchold, S. Pustelny, W. Gawlik ,”Experimental and Theoretical Study of Light Propagation in Suspended-Core Optical Fiber”, Optical and Acoustical Metho ds in Science and Technology, Vol. 118 , No.6, (2010).
[9] M. F. M. Salleh, Z. Zakaria, “Optical Power Attenuation of Long Distance OPGW in MALAYSIA”, Journal of Theoretical and Applied Information Technology No.3, Vol.75, (2015).
[10]A. Zendhnam, M. Mirzaei, A. Farashiani and L. Horabadi Farahani,” Investigation of bending loss in a single-mode optical fiber”, PRAMANA Journal Physics, Vol.74, No.4, (2010).
[11] G. P. Agrawal, Nonlinear Fiber Optics, 3rd ed. UK: Academic Press. A Harcourt Sci. and Tec. Co., (2001).
[12] M. F. M. Salleh and Z. Zakaria, “Effect of Bending Optical Fiber on Bend Loss Over a Long Period of Time”, ARPN Journal of Engineering and Applied Sciences Vol. 10, No. 16, (2015).
[13] G.P. Agrawal, “Nonlinear Fiber Optics”, 3 rd editions, San Digo: CA, Academic Press, USA, (2001).
[14] Nelson Leo David and B.S. IN E.E. “Optical fiber experiments for undergraduate engineers”, A thesis, Unv. Of Texas Tech., (1982).
[15] Potter B. G. “Module 3 - Attenuation in Optical Fibers”, Material Science and Engineering Dept, University of Arizona. pp. 1-16. (2010).
[16] D. J. Kruglinski, S. Wingo, and G. Shepherd, “Programming Microsoft Visual C++”, Washington, Microsoft Press, 5th edition, (1998).
[17] Uwe Bandelow, Ayhan Demircan and Martin Kesting, “ Simulation of pulse propagation in nonlinear optical fiber”, (WIAS) , Berlin, (2003).
[18] Salah A. Taha, Mehdi M. Shellal, and Ahmed C. Kadhim, “Simulation of Gaussian Pulses Propagation Through Single Mode Optical Fiber Using MATLAB”, Iraqi Journal of Science, Vol.54, No.3, pp.601-606,( 2013).
[19] S. H. Lawan, M. Ajiya and D.S.Shuaibu ,”Numerical Simulation of Chromatic Dispersion and Fiber Attenuation in a Single-Mode Optical Fiber System”, (IOSR-JECE), Vol. 3, Issue 6, PP 31-34,(2012),.
[20] S. Yelanin, V. Katok, and O. Ometsinska, "Length Optimization of Fiber Optic Regeneration Section Considering Dynamic Broadening of Optical Transmitter Spectrum", Proceedings of 2004 6th International Conference on Transparent Optical Networks, Vol. 2, Issue, 4-8 (2004), PP: 172 - 176, (2004).
[21] G. P. Agrawal, Fiber-optic Communication Systems. New York: John Wiley & Sons. Inc., (2002).