Enhancing the optical communication system efficiency by using ideal-DCF and fibre Bragg gratings for remote-distance

Authors

  • Atta Takhum Jaber Department of Teaching, Iraqi Police College, Baghdad, Iraq Author
  • Ahmed Hamzah Hadi Department of Physics, College of Education Pure Sciences, University of Karbala, Iraq Author
  • Rana Abdul Karim Merza Department of Diwan Affairs, University of Information Technology and Communications (UoITC), Baghdad, Iraq Author
  • Rana Jabbar Abd Ali Department of Cybersecurity, Imam Al-kadhum college, Baghdad, Iraq Author

DOI:

https://doi.org/10.56053/10.2.781

Keywords:

Fiber Bragg grating, Ideal dispersion compensation filter, SMF, BER

Abstract

An optimized Fiber Bragg Grating (FBG) setup is used to enhance network efficiency is presented in this work. By testing comparing the proposed setup with a reference network. One with no FBGs, and a second with a FBG network, the configuration employing single-mode optical fibre (SMF) for data transmission demonstrated superior performance due to the narrowing of the spectral width of the optical source. our system previously sustained efficiency levels over 140 km even when with variations in channel length and Ideal Dispersion Compensation Filter (Ideal DCF) types. Simulations suggested a high system reliability, verified by a Q factor and Bit error rate (BER) of 1.47324e 09. Measurements of performance such as eye height are assessed at distances confirming the system robustness. The entire system is simulated using OptiSystem and MATLAB.

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Published

2026-04-15

Issue

2026: Volume 10 Issue 2

Section

Articles

How to Cite

Enhancing the optical communication system efficiency by using ideal-DCF and fibre Bragg gratings for remote-distance . (2026). Experimental and Theoretical NANOTECHNOLOGY, 10(2), 781-794. https://doi.org/10.56053/10.2.781