Litcius/Paper detail

Optical interferometry–based array of seafloor environmental sensors using a transoceanic submarine cable

Giuseppe Marra, D. M. Fairweather, Valey Kamalov, Paul Gaynor, Mattia Cantono, Sean Mulholland, Brian Baptie, Jorge C. Castellanos, G. Vagenas, J.-O. Gaudron, Jochen Kronjäger, Ian R. Hill, M. Schioppo, Irene Barbeito Edreira, Kathryn Burrows, Cecilia Clivati, Davide Calonico, Andrew Curtis

2022Science189 citationsDOIOpen Access PDF

Abstract

Optical fiber-based sensing technology can drastically improve Earth observations by enabling the use of existing submarine communication cables as seafloor sensors. Previous interferometric and polarization-based techniques demonstrated environmental sensing over cable lengths up to 10,500 kilometers. However, measurements were limited to the integrated changes over the entire length of the cable. We demonstrate the detection of earthquakes and ocean signals on individual spans between repeaters of a 5860-kilometer-long transatlantic cable rather than the whole cable. By applying this technique to the existing undersea communication cables, which have a repeater-to-repeater span length of 45 to 90 kilometers, the largely unmonitored ocean floor could be instrumented with thousands of permanent real-time environmental sensors without changes to the underwater infrastructure.

Topics & Concepts

Repeater (horology)SubmarineRemote sensingInterferometryOptical fiber cableGeologyUnderwaterDistributed acoustic sensingOptical fiberFiber optic sensorTelecommunicationsEngineeringOpticsOceanographyCoupling (piping)PhysicsMechanical engineeringSeismic Waves and AnalysisGeophysics and Sensor TechnologySeismic Imaging and Inversion Techniques