Litcius/Paper detail

Dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration

G. Ramkumar, Perumal Kalpana Devi, Vinodhini Shankar, P. Sivaraman, Rajinikanth Eshwar, Binu Sukumar, Omar Karem Omran

2024Journal of Optical Communications12 citationsDOI

Abstract

Abstract This paper demonstrated the dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration. Various forward/backward and bidirectional pumping power configurations are studied versus fiber reach. Output light signal power is demonstrated against fiber reach without Raman amplification technique. Output light signal power in the forward Raman amplification scheme is clarified with pumping power of both 500 mW and 700 mW in various fiber channel configurations. As well as output light signal power in the backward Raman amplification scheme with pumping power of both 500 mW and 700 mW in various fiber channel configurations. Amplification Raman gain parameter coefficient is demonstrated with various values of pumping power pump based on various fiber channel configurations. Backward amplification net parameter gain is studied for different single mode/true wave/freelight fibers channel configuration at different both pumping power values and fiber reach. As well as the forward amplification net parameter gain is clarified for different single mode/true wave/freelight fibers channel configuration at different both pumping power values and fiber reach.

Topics & Concepts

Raman amplificationWavelength-division multiplexingOpticsPower (physics)Materials scienceAmplifierFiberSIGNAL (programming language)Dispersion-shifted fiberOptical fiberMultiplexingSingle-mode optical fiberRaman spectroscopyWavelengthOptoelectronicsRaman scatteringPhysicsFiber optic sensorElectronic engineeringComputer scienceEngineeringProgramming languageComposite materialCMOSQuantum mechanicsOptical Network TechnologiesAdvanced Photonic Communication SystemsAdvanced Optical Network Technologies