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High Figure–of–Merit Multi–Core Fiber With Standard Cladding Diameter for Long–Haul and Wide–Band Transmission

Takashi Matsui, Yuto Sagae, Yusuke Yamada, Kazuhide Nakajima, Yuushi Matsuo, Takanori Inoue, Kazunori Katayama, Yoshihisa Inada

2024Journal of Lightwave Technology22 citationsDOI

Abstract

A weakly coupled multi–core fiber with the standard 125–μm cladding diameter has shown promise as a next–generation large–capacity transmission medium for long–haul networks that can provide multiple optical paths while maintaining the existing cable structure. In this paper, we numerically and experimentally demonstrate a standard cladding 4–core fiber (4CF) with a superior transmission performance in terms of figure–of–merit (FOM), which is defined as the relative spectral efficiency to a conventional G.654 fiber, by simultaneously optimizing the design of its effective area and loss and crosstalk characteristics for submarine transmission. By considering a counter–propagation configuration among neighboring cores, we can obtain larger effective area of the optimized 4CF design because of the relaxed tradeoff relationship with the crosstalk. Specifically, we report a 10,140–km transmission with the spectral efficiency of 7.52 bit/s/Hz using a counter–propagation configuration, which indicates we can exceed a 1 Pbit/s cable capacity when considering a conventional 17–mm–diameter submarine cable. We also investigate the applicability of the standard cladding 4CF to wide–band transmission in the C+L band to see if it is appropriate for a long–distance terrestrial system. Our findings show that our design of 4CF to maximize the FOM for co– and counter–propagation between cores enables us to obtain a higher FOM in not only the C band but also the C+L band.

Topics & Concepts

Cladding (metalworking)Figure of meritOpticsOptical fiberCrosstalkElectronic engineeringWavelength-division multiplexingOptical fiber cableFiber-optic communicationTransmission (telecommunications)Transmission lossMaterials sciencePlastic optical fiberComputer scienceMulti-mode optical fiberPhysicsEngineeringTelecommunicationsMetallurgyWavelengthOptical Network TechnologiesAdvanced Optical Network TechnologiesAdvanced Photonic Communication Systems
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