Comparative investigations between SSMF and hollow-core NANF for transmission in the S+C+L-bands
Comparative investigations between SSMF and hollow-core NANF for transmission in the S+C+L-bands
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.
Optical Society of America
Hong, Y.
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Bradley, T.D.
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Taengnoi, N.
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Bottrill, K.R.H.
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Hayes, J.R.
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Jasion, G.T.
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Mulvad, H.C.
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Poletti, F.
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Petropoulos, P.
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Richardson, D.J.
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March 2020
Hong, Y.
73d5144c-02db-4977-b517-0d2f5a052807
Bradley, T.D.
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Taengnoi, N.
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Bottrill, K.R.H.
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Hayes, J.R.
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Jasion, G.T.
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Mulvad, H.C.
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Poletti, F.
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Petropoulos, P.
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Richardson, D.J.
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Hong, Y., Bradley, T.D., Taengnoi, N., Bottrill, K.R.H., Hayes, J.R., Jasion, G.T., Mulvad, H.C., Poletti, F., Petropoulos, P. and Richardson, D.J.
(2020)
Comparative investigations between SSMF and hollow-core NANF for transmission in the S+C+L-bands.
In Optical Fiber Communication Conference 2020.
Optical Society of America..
(doi:10.1364/OFC.2020.W3E.3).
Record type:
Conference or Workshop Item
(Paper)
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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More information
Published date: March 2020
Additional Information:
W3E.3
Venue - Dates:
Optical Fiber Communication Conference (OFC '20), , San Diego, United States, 2020-03-08 - 2020-03-12
Identifiers
Local EPrints ID: 441230
URI: http://eprints.soton.ac.uk/id/eprint/441230
PURE UUID: 5e10ab19-8206-46ad-87be-268f83b0f2fc
Catalogue record
Date deposited: 05 Jun 2020 16:31
Last modified: 28 Apr 2022 02:21
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Contributors
Author:
T.D. Bradley
Author:
N. Taengnoi
Author:
K.R.H. Bottrill
Author:
H.C. Mulvad
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