Dual-polarization NFDM transmission with continuous and discrete spectral modulation
F. Da Ros, S. Civelli, S. Gaiarin, E.P. da Silva, N. De Renzis, M., Secondini, and D. Zibar

TL;DR
This paper presents the first experimental demonstration of dual-polarization joint nonlinear frequency division multiplexing (NFDM) modulation, utilizing both continuous and discrete spectra to enhance optical fiber communication over long distances.
Contribution
It introduces a novel framework for constructing dual-polarization signals with combined spectral modulation, extending prior single-polarization schemes to dual-polarization transmission.
Findings
Successful experimental demonstration over 3200 km fiber
Enhanced spectral utilization exploiting both polarizations and spectra
Framework enables improved modulation flexibility in optical fibers
Abstract
Nonlinear distortion experienced by signals during their propagation through optical fibers strongly limits the throughput of optical communication systems. Recently, a strong research focus has been dedicated to nonlinearity mitigation and compensation techniques. At the same time, a more disruptive approach, the nonlinear Fourier transform (NFT), aims at designing signaling schemes more suited to the nonlinear fiber channel. In a short period, impressive results have been reported by modulating either the continuous spectrum or the discrete spectrum. Additionally, very recent works further introduced the opportunity to modulate both spectra for single polarization transmission. Here, we extend the joint modulation scheme to dual-polarization transmission by introducing the framework to construct a dual-polarization optical signal with the desired continuous and discrete spectra. After…
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