Comparative Investigations between SSMF and Hollow-core NANF for Transmission in the S+C+L-bands

Yang Hong; Thomas D. Bradley; Natsupa Taengnoi; Kyle R. H. Bottrill; John R. Hayes; Gregory T. Jasion; Hans C. Mulvad; Francesco Poletti; Periklis Petropoulos; David J. Richardson

doi:10.1364/OFC.2020.W3E.3

Optical Fiber Communication Conference (OFC) 2020
OSA Technical Digest (Optica Publishing Group, 2020),
paper W3E.3
•https://doi.org/10.1364/OFC.2020.W3E.3

Comparative Investigations between SSMF and Hollow-core NANF for Transmission in the S+C+L-bands

Yang Hong, Thomas D. Bradley, Natsupa Taengnoi, Kyle R. H. Bottrill, John R. Hayes, Gregory T. Jasion, Hans C. Mulvad, Francesco Poletti, Periklis Petropoulos, and David J. Richardson

Optical Fiber Communication Conference 2020

San Diego, California United States
8–12 March 2020
ISBN: 978-1-943580-71-2

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Ultra-wideband Transmission (W3E)

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Y. Hong, T. D. Bradley, N. Taengnoi, K. R. H. Bottrill, J. R. Hayes, G. T. Jasion, H. C. Mulvad, F. Poletti, P. Petropoulos, and D. J. Richardson, "Comparative Investigations between SSMF and Hollow-core NANF for Transmission in the S+C+L-bands," in Optical Fiber Communication Conference (OFC) 2020, OSA Technical Digest (Optica Publishing Group, 2020), paper W3E.3.

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Abstract

An experimental study reveals that hollow-core nested anti-resonant-nodeless fibers exhibit a broader bandwidth, lower latency, and offer >20% capacity enhancement in short-reach >100-Gb/s adaptively-loaded DMT transmission, relative to a standard SMF of a similar length.

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