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Nonlinearity compensation and link margin analysis of 112-Gbps circular-polarization division multiplexed fiber optic communication system using a digital coherent receiver over 800-km SSMF link

A. K. M. Sharoar Jahan Choyon, Ruhin Chowdhury

2021Journal of Optics20 citationsDOIOpen Access PDF

Topics & Concepts

Computer scienceElectronic engineeringCompensation (psychology)Wavelength-division multiplexingOptical fiberMargin (machine learning)MultiplexingTransmission (telecommunications)Nonlinear systemBit error rateOpticsOptical communicationOptical linkSignal processingModulation (music)SIGNAL (programming language)Fiber-optic communicationMulti-mode optical fiberDispersion (optics)Link (geometry)Orthogonal frequency-division multiplexingFrequency-division multiplexingFree-space optical communicationPassive optical networkSignal-to-noise ratio (imaging)Dispersion-shifted fiberTransmission systemSingle-mode optical fiberPolarization mode dispersionDivision (mathematics)Digital signal processingOptical performance monitoringCommunications systemOptical cross-connectFiber optic splitterFiberTime-division multiplexingOptical Network TechnologiesAdvanced Photonic Communication SystemsAdvanced Fiber Optic Sensors
Nonlinearity compensation and link margin analysis of 112-Gbps circular-polarization division multiplexed fiber optic communication system using a digital coherent receiver over 800-km SSMF link | Litcius