Advanced C+L-Band Transoceanic Transmission Systems Based on Probabilistically Shaped PDM-64QAM

Amirhossein Ghazisaeidi; Ivan Fernandez de Jauregui Ruiz; Rafael Rios-Müller; Laurent Schmalen; Patrice Tran; Patrick Brindel; Alexis Carbo Meseguer; Qian Hu; Fred Buchali; Gabriel Charlet; Jérémie Renaudier

Journal of Lightwave Technology
Vol. 35,
Issue 7,
pp. 1291-1299
(2017)

Advanced C+L-Band Transoceanic Transmission Systems Based on Probabilistically Shaped PDM-64QAM

Amirhossein Ghazisaeidi, Ivan Fernandez de Jauregui Ruiz, Rafael Rios-Müller, Laurent Schmalen, Patrice Tran, Patrick Brindel, Alexis Carbo Meseguer, Qian Hu, Fred Buchali, Gabriel Charlet, and Jérémie Renaudier

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Amirhossein Ghazisaeidi, Ivan Fernandez de Jauregui Ruiz, Rafael Rios-Müller, Laurent Schmalen, Patrice Tran, Patrick Brindel, Alexis Carbo Meseguer, Qian Hu, Fred Buchali, Gabriel Charlet, and Jérémie Renaudier, "Advanced C+L-Band Transoceanic Transmission Systems Based on Probabilistically Shaped PDM-64QAM," J. Lightwave Technol. 35, 1291-1299 (2017)

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Abstract

We review the most recent advanced concepts and methods employed in the cutting-edge spectrally efficient coherent fiber-optic transoceanic transmission systems, such as probabilistic shaping, adaptive digital nonlinear compensation, rate-adaptive spatially coupled low-density parity check codes, and dual-band C+L-band transmission. Building upon all these concepts and methods, we demonstrate transmission of 179 channels carrying a record net data rate of 65 Tb/s over 6600 km, achieving a spectral efficiency of 7.3 b/s/Hz, and a record average per-channel net bit rate of 363.1 Gb/s. We provide numerical and experimental results, which serve us to comment on the pertinence of the physicist's intuitive measure of performance, the signal-to-noise ratio, versus the information theorist's more accurate measure, the generalized mutual information, for the systems under study.

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Journal of Lightwave Technology