Abstract
Data from the 1978 Lopez Island OBS Intercomparison Experiment and deep sea data from University of Washington OBSs show that there is a considerable amount of waveform distortion resulting from the conversion of horizontal motion into vertical motion, here called cross-coupling distortion. This distortion, which substancially reduces the significance of waveform matching with synthetic seismograms, appears to result from rotation imparted to the OBS package by near-vertically traveling shear energy. The degree of this rotation seems to depend on the instrument surface area above the seafloor and the geometry and surface area of the ‘feet’ connecting the package to the seafloor. The sensitivity and response of the seismometers within the package to this rotation depends on the precise location of the seismometers with respect to the axis of rotation. The results suggest how to modify OBS designs to minimize these effects.
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References
Sutton, G. H., Duennebier, F. K., and Iwatake, B.: 1981, ‘Coupling of Ocean Bottom Seismometers to Soft Bottoms’, Marine Geophys. Res. 5, 35–51 (this issue).
Tuthill, J. D., Lewis, B. T. R., and Garmany, J. D.: 1981, ‘Stoneley Waves, Lopez Island Noise, and Deep Sea Noise from 1 to 5 Hz’, Marine Geophys. Res. 5, 95–108 (this issue).
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University of Washington Contribution No. 1225.
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Lewis, B.T.R., Tuthill, J.D. Instrumental waveform distortion on ocean bottom seismometers. Mar Geophys Res 5, 79–85 (1981). https://doi.org/10.1007/BF00310313
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DOI: https://doi.org/10.1007/BF00310313