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Article Dans Une Revue Journal of Geodynamics Année : 2004

Performance of superconducting gravimeters from long-period seismology to tides

Résumé

The first phase (1997 2003) of the Global Geodynamics Project (GGP) has now been completed. Data from superconducting gravimeters (SGs) within GGP have shown great capabilities in a wide spectrum of geophysical applications from the tidal studies to the long-period seismology. Here, we compare the noise levels of the different contributing stations over the whole spectrum. We use three different processing procedures to evaluate the combined instrument-plus-site noise in the long-period seismic band (200 600 s), in the sub-seismic band (1 6 h) and in the tidal bands (12 24 h). The analysis in the seismic band has demonstrated that SGs are particularly well suited for the studies of the long-period normal modes and thus are complementary to long-period seismometers. In the sub-seismic band, the power spectral densities, computed over a period of 15 continuous days for every GGP station, cross the New Low Noise Model of Peterson from T = 16 min to T = 4.6 h. SG data are therefore appropriate for studying long-period seismic and sub-seismic modes. In the tidal bands, the noise comparison is realised by a least-squares fit to tides, local air pressure and instrumental drift, leading to gravity residuals where we estimate a standard deviation and average noise levels in different tidal frequency bands. Tidal gravity observations using SGs have also shown to be an independent validation tool of ocean tidal models, and they are therefore complementary to tide gauge and altimetric data sets. Knowledge of the noise levels at each station is important in a number of studies that combine the data to determine global Earth parameters. We illustrate it with the stacking of the data in the search for the gravity variations associated with the sub-seismic translational motions of the inner core, the so-called Slichter triplet.

Dates et versions

hal-00643196 , version 1 (21-11-2011)

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Citer

Séverine Rosat, J. Hinderer, D. Crossley, J. P. Boy. Performance of superconducting gravimeters from long-period seismology to tides. Journal of Geodynamics, 2004, 38, pp.461-476. ⟨10.1016/J.JOG.2004.07.005⟩. ⟨hal-00643196⟩
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