Devices and fibers for ultrawideband optical communications
Devices and fibers for ultrawideband optical communications
Wavelength-division multiplexing (WDM) has historically enabled the increase in the capacity of optical systems by progressively populating the existing optical bandwidth of erbium-doped fiber amplifiers (EDFAs) in the C -band. Nowadays, the number of channels - needed in optical systems - is approaching the maximum capacity of standard C -band EDFAs. As a result, the industry worked on novel approaches, such as the use of multicore fibers, the extension of the available spectrum of the C -band EDFAs, and the development of transmission systems covering C - and L-bands and beyond. In the context of continuous traffic growth, ultrawideband (UWB) WDM transmission systems appear as a promising technology to leverage the bandwidth of already deployed optical fiber infrastructure and sustain the traffic demand for the years to come. Since the pioneering demonstrations of UWB transmission a few years ago, long strides have been taken toward UWB technologies. In this review article, we discuss how the most recent advances in the design and fabrication of enabling devices, such as lasers, amplifiers, optical switches, and modulators, have improved the performance of UWB systems, paving the way to turn research demonstrations into future products. In addition, we also report on the advances in UWB optical fibers, such as the recently introduced nested antiresonant nodeless fibers (NANFs), whose future implementations could potentially provide up to 300-nm-wide bandwidth at less than 0.2 dB/km loss.
Lasers, optical amplifiers, optical components, optical fiber communication, optical fibers, optical switches, semiconductor optical amplifiers, ultrawideband (UWB) optical communications
1742-1759
Renaudier, Jeremie
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Napoli, Antonio
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Ionescu, Maria
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Calo, Cosimo
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Fiol, Gerrit
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Mikhailov, Vitaly
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Forysiak, Wladek
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Fontaine, Nicolas
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Poletti, Francesco
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Poggiolini, Pierluigi
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1 November 2022
Renaudier, Jeremie
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Napoli, Antonio
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Ionescu, Maria
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Calo, Cosimo
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Fiol, Gerrit
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Mikhailov, Vitaly
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Forysiak, Wladek
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Fontaine, Nicolas
2035291d-7347-432d-aab3-1b4d40dad999
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Poggiolini, Pierluigi
e66b0ef7-41e4-46f7-9c89-3de0e1b9a8cf
Renaudier, Jeremie, Napoli, Antonio, Ionescu, Maria, Calo, Cosimo, Fiol, Gerrit, Mikhailov, Vitaly, Forysiak, Wladek, Fontaine, Nicolas, Poletti, Francesco and Poggiolini, Pierluigi
(2022)
Devices and fibers for ultrawideband optical communications.
Proceedings of the IEEE, 110 (11), .
(doi:10.1109/JPROC.2022.3203215).
Abstract
Wavelength-division multiplexing (WDM) has historically enabled the increase in the capacity of optical systems by progressively populating the existing optical bandwidth of erbium-doped fiber amplifiers (EDFAs) in the C -band. Nowadays, the number of channels - needed in optical systems - is approaching the maximum capacity of standard C -band EDFAs. As a result, the industry worked on novel approaches, such as the use of multicore fibers, the extension of the available spectrum of the C -band EDFAs, and the development of transmission systems covering C - and L-bands and beyond. In the context of continuous traffic growth, ultrawideband (UWB) WDM transmission systems appear as a promising technology to leverage the bandwidth of already deployed optical fiber infrastructure and sustain the traffic demand for the years to come. Since the pioneering demonstrations of UWB transmission a few years ago, long strides have been taken toward UWB technologies. In this review article, we discuss how the most recent advances in the design and fabrication of enabling devices, such as lasers, amplifiers, optical switches, and modulators, have improved the performance of UWB systems, paving the way to turn research demonstrations into future products. In addition, we also report on the advances in UWB optical fibers, such as the recently introduced nested antiresonant nodeless fibers (NANFs), whose future implementations could potentially provide up to 300-nm-wide bandwidth at less than 0.2 dB/km loss.
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Published date: 1 November 2022
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Keywords:
Lasers, optical amplifiers, optical components, optical fiber communication, optical fibers, optical switches, semiconductor optical amplifiers, ultrawideband (UWB) optical communications
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Local EPrints ID: 473819
URI: http://eprints.soton.ac.uk/id/eprint/473819
ISSN: 0018-9219
PURE UUID: 84444c2e-7a1f-48ff-a64e-4e3c3b2979e3
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Date deposited: 01 Feb 2023 17:32
Last modified: 17 Mar 2024 03:09
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Contributors
Author:
Jeremie Renaudier
Author:
Antonio Napoli
Author:
Maria Ionescu
Author:
Cosimo Calo
Author:
Gerrit Fiol
Author:
Vitaly Mikhailov
Author:
Wladek Forysiak
Author:
Nicolas Fontaine
Author:
Pierluigi Poggiolini
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