Title of article
Calibration of Regional S/P Amplitude-ratio Discriminants
Author/Authors
R. D. Jenkins، نويسنده , , T. J. Sereno، نويسنده , , Jr. ، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2001
Pages
22
From page
1279
To page
1300
Abstract
S/P amplitude ratios have proven to be a valuable discriminant in support of monitoring a Comprehensive Nuclear Test Ban Treaty. Regional S and P phases attenuate at different rates and the attenuation can vary geographically. Therefore, calibration is needed to apply the S/P discriminant in new regions. Calibration includes application of frequency-dependent source and distance corrections for regional Pn, Pg, Sn, and Lg phases.Jenkins et al. (1998) developed Pn, Pg, Sn, and Lg amplitude models for nine geographic regions and two global composite models, stable and tectonic. They determined frequency-dependent source and attenuation corrections from a large data set obtained from the Prototype International Data Center (PIDC). We use their corrections to evaluate calibrated S/P discriminants.Our discrimination data set includes >1000 amplitude ratios from earthquakes, industrial explosions, chemical explosions, and nuclear explosions from Lop Nor, India and Pakistan. We find that the calibrated S/P ratio is largest for earthquakes and smallest for the nuclear explosions, as expected. However, the discriminant is not universally valid. In particular, the S/P ratio for the Pakistan nuclear explosion fell within the normal range for the earthquakes. This event was recorded by only a few stations at far-regional distances and appears to have an anomalously high Sn amplitude. The industrial explosions overlap with the earthquake population, however the buried chemical explosions generally register lower S/P ratio than earthquakes
Keywords
Discrimination , frequency-dependent attenuation , source-level correction , S/P amplitude ratios , regional phases , comprehensive Nuclear test Ban Treaty.
Journal title
Pure and Applied Geophysics
Serial Year
2001
Journal title
Pure and Applied Geophysics
Record number
429351
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