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Title: Identifying isotropic events using a regional moment tensor inversion

Conference ·
; ;

The deviatoric and isotropic source components for 17 explosions at the Nevada Test Site, as well as 12 earthquakes and 3 collapses in the surrounding region of the western US, are calculated using a regional time-domain full waveform inversion for the complete moment tensor. The events separate into specific populations according to their deviation from a pure double-couple and ratio of isotropic to deviatoric energy. The separation allows for anomalous event identification and discrimination between explosions, earthquakes, and collapses. Confidence regions of the model parameters are estimated from the data misfit by assuming normally distributed parameter values. We investigate the sensitivity of the resolved parameters of an explosion to imperfect Earth models, inaccurate event depths, and data with a low signal-to-noise ratio (SNR) assuming a reasonable azimuthal distribution of stations. In the band of interest (0.02-0.10 Hz) the source-type calculated from complete moment tensor inversion is insensitive to velocity models perturbations that cause less than a half-cycle shift (<5 sec) in arrival time error if shifting of the waveforms is allowed. The explosion source-type is insensitive to an incorrect depth assumption (for a true depth of 1 km), but the goodness-of-fit of the inversion result cannot be used to resolve the true depth of the explosion. Noise degrades the explosive character of the result, and a good fit and accurate result are obtained when the signal-to-noise ratio (SNR) is greater than 5. We assess the depth and frequency dependence upon the resolved explosive moment. As the depth decreases from 1 km to 200 m, the isotropic moment is no longer accurately resolved and is in error between 50-200%. However, even at the most shallow depth the resultant moment tensor is dominated by the explosive component when the data has a good SNR. The sensitivity investigation is extended via the introduction of the network sensitivity solution, which takes into account the unique station distribution, frequency band, and SNR of a given test scenario. An example of this analysis is presented for the North Korea test, which shows that in order to constrain the explosive component one needs a certain station configuration. In the future we will analyze the bias in the source-type parameters due to error in the Green's function by incorporating a suite of suitable velocity models in the inversion.

Research Organization:
Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
945689
Report Number(s):
LLNL-CONF-405554; TRN: US200903%%732
Resource Relation:
Journal Volume: 114; Journal Issue: B1; Conference: Presented at: Monitoring Research Review, Portsmouth, VA, United States, Sep 23 - Sep 25, 2008
Country of Publication:
United States
Language:
English

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Cited By (6)

Discrimination of induced seismicity by full moment tensor inversion and decomposition journal May 2012
Rapid ground deformation corresponding to a mining-induced seismic event followed by a massive collapse journal December 2018
Insights Into Fault‐Magma Interactions in an Early‐Stage Continental Rift From Source Mechanisms and Correlated Volcano‐Tectonic Earthquakes journal February 2019
The classical model for moment tensors journal October 2013
Analysis of seismic moment tensors and in situ stress during Enhanced Geothermal System development at The Geysers geothermal field, California journal August 2018
Focal mechanisms of the 2017 North Korean nuclear test and its early collapse event journal October 2019

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Related Subjects

58 GEOSCIENCES
CONFIGURATION
DISTRIBUTION
EARTHQUAKES
EXPLOSIONS
EXPLOSIVES
FREQUENCY DEPENDENCE
MONITORING
NEVADA TEST SITE
NORTH KOREA
SENSITIVITY
SIGNAL-TO-NOISE RATIO
VELOCITY
WAVE FORMS