Thomas Reinsch scite author profile

Natural hazard prediction and efficient crust exploration require dense seismic observations both in time and space. Seismological techniques provide ground-motion data, whose accuracy depends on sensor characteristics and spatial distribution. Here we demonstrate that dynamic strain determination is possible with conventional fibre-optic cables deployed for telecommunication. Extending recently distributed acoustic sensing (DAS) studies, we present high resolution spatially un-aliased broadband strain data. We recorded seismic signals from natural and man-made sources with 4-m spacing along a 15-km-long fibre-optic cable layout on Reykjanes Peninsula, SW-Iceland. We identify with unprecedented resolution structural features such as normal faults and volcanic dykes in the Reykjanes Oblique Rift, allowing us to infer new dynamic fault processes. Conventional seismometer recordings, acquired simultaneously, validate the spectral amplitude DAS response between 0.1 and 100 Hz bandwidth. We suggest that the networks of fibre-optic telecommunication lines worldwide could be used as seismometers opening a new window for Earth hazard assessment and exploration.

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Utilizing supercritical geothermal systems: a review of past ventures and ongoing research activities

Reinsch

Dobson

Asanuma³

et al. 2017

Geotherm Energy

157

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Direct and indirect laboratory measurements of poroelastic properties of two consolidated sandstones

Blöcher

Reinsch

Hassanzadegan

et al. 2014

International Journal of Rock Mechanics and Mining Sciences

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Thomas Reinsch

Global soil characterization with VNIR diffuse reflectance spectroscopy

2.1 Bulk Density and Linear Extensibility

Dynamic strain determination using fibre-optic cables allows imaging of seismological and structural features

Utilizing supercritical geothermal systems: a review of past ventures and ongoing research activities

Direct and indirect laboratory measurements of poroelastic properties of two consolidated sandstones

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