Print Email Facebook Twitter Determining clock errors of ocean-bottom seismometers Title Determining clock errors of ocean-bottom seismometers: an ambient-noise based method designed for large-scale ocean bottom deployments Author Naranjo, D. (TU Delft Applied Geophysics and Petrophysics) Parisi, Laura (King Abdullah University of Science and Technology) Jónsson, Sigurjón (King Abdullah University of Science and Technology) Jousset, Philippe (Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences) Werthmüller, D. (TU Delft Geoscience and Engineering) Weemstra, C. (TU Delft Applied Geophysics and Petrophysics) Department Geoscience and Engineering Date 2023 Abstract The timing of the recordings of ocean-bottom seismometers (OBSs) is critical for accurate earthquake location and Earth model studies. GNSS signals, however, cannot reach OBSs deployed at the ocean bottom. This prevents their clocks from being synchronized with a known reference time. To overcome this, we developed OCloC, a Python package that uses time-lapse cross-correlations of ambient seismic noise to synchronize the recordings of large-scale OBS deployments. By simultaneously quantifying deviations from symmetry of a set of lapse cross-correlations, OCloC recovers the incurred clock errors by means of a least-squares inversion. In fact, because non-uniform noise illumination patterns also break the symmetry of (lapse) cross-correlations, we introduce a distance-based weighted least-squares inversion. This mitigates the adverse effect of the noise illumination on the recovered clock errors. Using noise recordings from the IMAGE project in Reykjanes, Iceland, we demonstrate that OCloC significantly reduces the time and effort needed to detect and correct timing errors in large-scale OBS deployments. In addition, our methodology allows one to evaluate potential timing errors at the time of OBS deployment. These might be caused by incorrect initial synchronization, or by rapidly changing temperature conditions while the OBS is sunk to the sea bottom. Our work advances the use of OBSs for earthquake studies and other applications. Subject Ocean Bottom SeismometersClock driftSeismologyAmbient Seismic NoiseLeast-Squares Inversion To reference this document use: http://resolver.tudelft.nl/uuid:ee6028ab-e84d-4f8b-8959-601d6439cb81 DOI https://doi.org/10.5194/egusphere-egu23-15012 Event EGU General Assembly 2023, 2023-04-23 → 2023-04-28, Austria Center Vienna (ACV), Vienna, Austria Part of collection Institutional Repository Document type abstract Rights © 2023 D. Naranjo, Laura Parisi, Sigurjón Jónsson, Philippe Jousset, D. Werthmüller, C. Weemstra Files PDF EGU23_15012_print.pdf 368.83 KB Close viewer /islandora/object/uuid:ee6028ab-e84d-4f8b-8959-601d6439cb81/datastream/OBJ/view