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2048-QAM transmission at 15 GBd over 100 km using geometric constellation shaping

Yuta Wakayama, Thomas Gerard, Eric Sillekens, Lídia Galdino, Domaniç Lavery, Robert I. Killey, Polina Bayvel

2021Optics Express34 citationsDOIOpen Access PDF

Abstract

We experimentally investigated a pilot-aided digital signal processing (DSP) chain in combination with high-order geometric constellation shaping to increase the achievable information rates (AIRs) in standard intradyne coherent transmission systems. We show that the AIR of our system at 15 GBd was maximised using geometrically-shaped (GS) 2048 quadrature amplitude modulation (QAM), reaching 18.0 b/4D-symbol in back-to-back transmission and 16.9 b/4D-symbol after transmission through 100 km of a single-mode fibre after subtracting the pilot overhead (OH). This represents the highest-order GS format demonstrated to date, supporting the highest AIR of any standard intradyne system using conventional optics and 8-bit electronics. Detailed characterisation of the DSP, transceiver performance, and transmission modelling has also been carried out to provide insight into sources of impairments and directions for further improvement.

Topics & Concepts

Quadrature amplitude modulationTransmission (telecommunications)Digital signal processingQAMOpticsFree-space optical communicationComputer scienceConstellationOptical communicationElectronic engineeringModulation (music)Transmission systemTelecommunicationsData transmissionBit error ratePhysicsComputer hardwareEngineeringAcousticsDecoding methodsAstronomyOptical Network TechnologiesPhotonic and Optical DevicesAdvanced Photonic Communication Systems
2048-QAM transmission at 15 GBd over 100 km using geometric constellation shaping | Litcius