Abstract
We search in the continuous GPS 3-D displacement data for the signals of the normal modes of Earth’s free oscillation that were excited by the 2011 Mw 9.0 Tohoku earthquake. A previous study has reported such a detection; we here conduct a more comprehensive and detailed study. We use GPS data from three separate networks: (i) about 1000 stations from the Japan GEONET; (ii) about 600 stations from the western USA PBO; and (iii) about 140 stations of the global IGS, and solve and form records of 21 h length at 30-s sampling rate. We conduct various multiple-record stacking methods: the frequency-domain power spectrum stacking that reduces the variance of the noises, and the time-domain stackings that boost the SNR of target modes while suppressing the non-target modes. We find the time-domain stacking method of optimal sequence estimation (OSE) to be the most effective, which show clearly high sensitivity and detectability of the modes in the spectrum. For the near-field GEONET where all excited modes have anti-nodes, all the spheroidal fundamental modes 0S9–0S43 below 5 MHz and some of the lower-degree overtones as well as most of the low-degree toroidal fundamental modes show up as prominent spectral peaks against the PREM model eigenfrequencies. The PBO sees less strong (being far-field and generally off-antinodes), but still clearly identifiable spectral peaks of the fundamental modes. The global IGS network data detect barely a handful of these modes because of its sparsity and small numbers of stations. We thus demonstrate that GPS does actually record the tiny seismic signals that can be revealed by means of multiple-record stacking methods, potentially useful for studying earthquake source mechanisms exciting the normal modes.
Highlights
After a large earthquake the whole Earth would “ring” for up to days, when it undergoes free oscillation with discrete normal modes much like a musical instrument
Our results presented below consist of Fourier power spectra of data stacks, stacked either in the frequency domain or in the time domain as described above
Considering the fact that the selection of stations can make significant differences in the stacked spectrum (Gilbert and Dziewonski 1975), we took from the Japan GEONET network as many stations as feasible—1019 stations, compared to just over 300 stations by Mitsui and Heki (2012))
Summary
After a large earthquake the whole Earth would “ring” for up to days, when it undergoes free oscillation with discrete normal modes much like a musical instrument.
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