Characterisation of the optical response to seismic waves of submarine telecommunications cables with distributed and integrated fibre-optic sensing
Characterisation of the optical response to seismic waves of submarine telecommunications cables with distributed and integrated fibre-optic sensing
We present the first controlled-environment measurements of the optical path-length change response of telecommunication submarine cables to active seismic and acoustic waves. We perform the comparison among integrated (optical interferometry) and distributed (distributed acoustic sensing, DAS) fibre measurements and ground truth data acquired by 58 geophones, 20 three-axis seismometers and 7 microphones. The comparison between different seismic acquisition methods is an essential step towards full validation and calibration of the data acquired using novel cable-based sensing techniques. Our experimental data demonstrates broadside sensitivity of integrated optical phase measurements, in contrast to predictions from the prevailing model for this type of sensing. We also present evidence of a fast-wave arrival, which we attribute to coupled energy propagating through the metal armour of the submarine cables at a considerably faster velocity than the subsurface and acoustic waves measured during our tests. The latter process can greatly affect the detected optical signal. The experimental setup allowed us to also observe how sensing measurements on separate optical fibres within the same cable can lead to significantly different detected waveforms. Constraining the effects of the fibre architecture on recorded signals can identify factors that contribute to the non-linear response of such a sensing system.
Fairweather, David
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Masoudi, Ali
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Tamussino, Max
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Feng, Zitong
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Barham, Richard
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Parkin, Neil
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Cornelius, David
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Curtis, Andrew
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Brambilla, G.
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Marra, Giuseppe
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30 December 2024
Fairweather, David
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Masoudi, Ali
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Tamussino, Max
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Feng, Zitong
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Barham, Richard
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Parkin, Neil
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Cornelius, David
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Curtis, Andrew
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Brambilla, G.
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Marra, Giuseppe
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Fairweather, David, Masoudi, Ali, Tamussino, Max, Feng, Zitong, Barham, Richard, Parkin, Neil, Cornelius, David, Curtis, Andrew, Brambilla, G. and Marra, Giuseppe
(2024)
Characterisation of the optical response to seismic waves of submarine telecommunications cables with distributed and integrated fibre-optic sensing.
Scientific Reports, 14 (31843), [31843].
(doi:10.1038/s41598-024-83107-x).
Abstract
We present the first controlled-environment measurements of the optical path-length change response of telecommunication submarine cables to active seismic and acoustic waves. We perform the comparison among integrated (optical interferometry) and distributed (distributed acoustic sensing, DAS) fibre measurements and ground truth data acquired by 58 geophones, 20 three-axis seismometers and 7 microphones. The comparison between different seismic acquisition methods is an essential step towards full validation and calibration of the data acquired using novel cable-based sensing techniques. Our experimental data demonstrates broadside sensitivity of integrated optical phase measurements, in contrast to predictions from the prevailing model for this type of sensing. We also present evidence of a fast-wave arrival, which we attribute to coupled energy propagating through the metal armour of the submarine cables at a considerably faster velocity than the subsurface and acoustic waves measured during our tests. The latter process can greatly affect the detected optical signal. The experimental setup allowed us to also observe how sensing measurements on separate optical fibres within the same cable can lead to significantly different detected waveforms. Constraining the effects of the fibre architecture on recorded signals can identify factors that contribute to the non-linear response of such a sensing system.
Text
s41598-024-83107-x
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Accepted/In Press date: 11 December 2024
Published date: 30 December 2024
Identifiers
Local EPrints ID: 502302
URI: http://eprints.soton.ac.uk/id/eprint/502302
ISSN: 2045-2322
PURE UUID: cca686a0-151f-401a-9b0d-96a3e7d9c9cf
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Date deposited: 20 Jun 2025 16:49
Last modified: 22 Aug 2025 02:04
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Contributors
Author:
David Fairweather
Author:
Ali Masoudi
Author:
Max Tamussino
Author:
Zitong Feng
Author:
Richard Barham
Author:
Neil Parkin
Author:
David Cornelius
Author:
Andrew Curtis
Author:
G. Brambilla
Author:
Giuseppe Marra
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