Achievable information rates estimates in optically-amplified transmission systems using nonlinearity compensation and probabilistic shaping
Daniel Semrau, Tianhua Xu, Nikita A. Shevchenko, Milen Paskov, Alex, Alvarado, Robert I. Killey, Polina Bayvel

TL;DR
This paper estimates the achievable information rates in wideband optical communication systems using nonlinear compensation and probabilistic shaping, demonstrating significant data throughput improvements over long distances.
Contribution
It introduces a first-order perturbation analysis to evaluate AIRs with nonlinear compensation and probabilistic shaping in optical systems with EDFA and Raman amplification.
Findings
Probabilistic shaping with FF-NLC significantly increases AIRs.
Achieves ~75 Tbit/s over 2000 km with EDFA.
Achieves ~223 Tbit/s over 2000 km with Raman amplification.
Abstract
Achievable information rates (AIRs) of wideband optical communication systems using ~40 nm (~5 THz) EDFA and ~100 nm (~12.5 THz) distributed Raman amplification are estimated based on a first-order perturbation analysis. The AIRs of each individual channel have been evaluated for DP-64QAM, DP-256QAM, and DP-1024QAM modulation formats. The impact of full-field nonlinear compensation (FF-NLC) and probabilistically shaped constellations using a Maxwell-Boltzmann distribution were studied and compared to electronic dispersion compensation. It is found that a probabilistically shaped DP-1024QAM constellation combined with FF-NLC yields AIRs of ~75 Tbit/s for the EDFA scheme and ~223 Tbit/s for the Raman amplification scheme over 2000 km standard single mode fibre transmission.
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