Optical fiber systems performance signature based on dispersion compensated methods in dense wavelength division multiplexing systems

Optical fiber systems performance signature based on dispersion compensated methods in dense wavelength division multiplexing systems

This study has clarified the optical fiber systems performance signature based on the dispersion mitigation techniques in based on the dispersion compensated dense wavelength division multiplexing (WDM) systems in the presence of RZ/NRZ modulation code method. The high-transmission reach-based dense...

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Bibliographic Details
Published in:Journal of optics (New Delhi) Vol. 53; no. 3; pp. 2763 - 2774
Main Authors: Houssien, Fatma M. A. M., Arjunan, Manimaran, Narayanasamy, Punitha, Kumar, Chandran Ramesh, Sivapriya, Jothilingam, Prabu, Ramachandran Thandaiah, Ahammad, Shaik Hasane, Hossain, Md. Amzad, Rashed, Ahmed Nabih Zaki
Format: Journal Article
Language:English
Published: New Delhi Springer India 01-07-2024
Subjects:
Lasers
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
Research Article
Fiber system
Dispersion compensate
WD
NRZ code
RZ modulation
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Summary:This study has clarified the optical fiber systems performance signature based on the dispersion mitigation techniques in based on the dispersion compensated dense wavelength division multiplexing (WDM) systems in the presence of RZ/NRZ modulation code method. The high-transmission reach-based dense multiplexing channels through the WDM network by OptiSystem software. The long reach dense multiplexing system is modeled at 100 GHz for high bit rates through SMF with possible 200 km transmission. The Dense WDM technique is tested with the input signal variations. Three compensation techniques are employed that are namely symmetrical dispersion compensated fiber, fiber Bragg grating method and Chirped fiber Bragg grating method. The study has demonstrated the efficient compensation methods for upgrading the optical/electrical signal per noise ratio especially with the use of chirped fiber Bragg grating technique.
ISSN:0972-8821
0974-6900
DOI:10.1007/s12596-023-01454-w