Abstract

We exploit the coherence of frequency combs for high spectral efficiency superchannel transmission via effective sharing of a single pilot tone. By phase-locking the receiver comb to the transmitted pilot tone, carrier offsets are suppressed while both the overhead and complexity associated with the pilot tone are reduced. We form a 55 carrier superchannel using a 25-GHz spaced electro-optic frequency comb seeded by a 100-kHz linewidth laser. At a pilot tone overhead of $<$ 2%, the reduction in carrier offsets is shown to facilitate blind DSP-based carrier recovery of all 54 $\times$ 24 Gbaud PM-128QAM data channels. The resulting superchannel spectral efficiency is 10.3 bits/s/Hz assuming a 28% overhead for forward error correction. Our results show the potential for optical pilot tones to reduce both overhead and complexity in systems using comb-based superchannels together with high-order modulation formats.

© 2017 OAPA

Overhead-optimization of pilot-based digital signal processing for flexible high spectral efficiency transmission

Mikael Mazur, Jochen Schröder, Abel Lorences-Riesgo, Tsuyoshi Yoshida, Magnus Karlsson, and Peter A. Andrekson
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Self-homodyne 24×32-QAM superchannel receiver enabled by all-optical comb regeneration using brillouin amplification

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Spectrally efficient pilot tone-based compensation of inter-channel cross-phase modulation noise in a WDM coherent transmission using injection locking

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Opt. Express 29(2) 1454-1469 (2021)