Linking Distributed and Integrated Fiber-Optic Sensing
- 1. Institute of Geophysics, ETH Zürich, Zürich, Switzerland, 2Department of Informatics and Telecommunications, National and Kapodistrian University of Athens, Athens, Greece, 3Department of Informatics and Computer Engineering, University of West Attica, Egaleo, Greece, 4Electronics and Photonics Laboratory, Department of Physics, University of Thessaly, Lamia, Greece, 5National Observatory of Athens, Institute of Geodynamics, Lofos Nimfon, Thission, Athens, Greece, 6Department of Electrical and Electronics Engineering, University of West Attica, Egaleo, Greece
Description
Distributed Acoustic Sensing (DAS) has become a popular method of observing seismic wavefields: backscattered pulses of light reveal strains or strain rates at any location along a fiber-optic cable. In contrast, a few newer systems transmit light through a cable and collect integrated phase delays over the entire cable, such as the Microwave Frequency Fiber Interferometer (MFFI). These integrated systems can be deployed over significantly longer distances, may be used in conjunction with live telecommunications, and can be significantly cheaper. However, they provide only a single time series representing strain over the entire length of the fiber. This work discusses theoretically how a distributed and integrated system can be quantitatively compared, and we note that the sensitivity depends strongly on points of curvature. Importantly, this work presents the first results of a quantitative, head-to-head comparison of a DAS and the integrated MFFI system using pre-existing telecommunications fibers in Athens, Greece.
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Linking Distributed and Integrated Fiber‐Optic Sensing.pdf
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(7.8 MB)
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