NOISE LIMITATIONS IN THE CORE-MODE BAND OF SUPERCONDUCTING GRAVIMETERDATA

In recent years, several claims of detection of weak harmonic signals in the sub-tidal band of frequencies of high-quality gravimeter data h ave been made. Here, we review our attempts at confirming Smylie's cla im of detection of the Slichter mode of inner-core oscillation using t he same four data sets he and his colleagues used. We further examine the homogeneous 2 year data sets obtained from the superconducting gra vimeters sited in Strasbourg and at Cantley, Quebec. We show that the power spectra of tidal-reduced, pressure and slew-corrected gravity re siduals from these data are indistinguishable from a random walk proce ss except in narrow bands dominated by residual earth tides and by har monics of the diurnal thermal-atmospheric tide. Such a random 'brown' residual could result from mechanical instabilities and electronic noi se in the instruments themselves, from site-specific tectonic noise, f rom local hydrological variations and pier instabilities or it could d erive from unaccounted for variability in the atmospheric pressure in the vicinity of the instruments. We argue that the homogeneous 2 year data sets show no evidence whatever of Slichter harmonics even though our preprocessing methods reduce 'apparent noise levels' in the core-m ode band by almost an order magnitude in comparison with the four data sets originally employed by Smylie et al. and, in their first attempt ed confirmation of his claimed discovery, by Jensen et al.