Incorporating Love- and Rayleigh-Wave Magnitudes, Unequal Earthquake and Explosion Variance Assumptions, and Intrastation Complexity for Improved Event Screening

Abstract

Our objective is to improve seismic event screening using the properties of surface waves. We are accomplishing this through (1) the development of a Love-wave magnitude formula that is complementary to the Russell (2006) formula for Rayleigh waves and (2) quantifying differences in complexities and magnitude variances for earthquake and explosion-generated surface waves. We have applied the M(x) (VMAX) analysis (Bonner et al., 2006) using both Love and Rayleigh waves to events in the Middle East and Korean Peninsula. For the Middle East dataset, consisting of approximately 100 events, the Love M(x) (VMAX) is greater than the Rayleigh M(s), (VMAX) estimated for individual stations for the majority of the events and azimuths, with the exception of the measurements for the smaller events from European stations to the northeast. It is unclear whether these smaller events suffer from magnitude bias for the Love waves or whether the paths, which include the Caspian and Mediterranean, have variable attenuation for Love and Rayleigh waves. For the Korean Peninsula, we have estimated Rayleigh- and Love-wave magnitudes for 31 earthquakes and two nuclear explosions, including the 25 May 2009 event. For 25 of the earthquakes, the network-averaged Love-wave magnitude is larger than the Rayleigh-wave estimate. For the 2009 nuclear explosion, the Love-wave Ms (VMAX) was 3.1 while the Rayleigh-wave magnitude was 3.6. We are also utilizing the potential of observed variances in Ms estimates that differ significantly in earthquake and explosion populations. We have considered two possible methods for incorporating unequal variances into the discrimination problem and compared the performance of various approaches on a population of 73 Western United States (WUS) earthquakes and 131 Nevada Test Site (NTS) explosions.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Sep 30, 2009
Accession Number
ADA505414

Entities

People

  • Anastasia Stroujkova
  • Dale N. Anderson
  • Jessie L. Bonner
  • Robert B. Herrmann
  • Robert H. Shumway

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Air Force Research Laboratories
  • Attenuation
  • Data Science
  • Discrimination
  • Explosions
  • Ground Based
  • Information Science
  • Love Waves
  • Measurement
  • Middle East
  • Nuclear Explosions
  • Rayleigh Waves
  • Spectra
  • Standards
  • Surface Waves
  • United States
  • Waves

Readers

  • Atmospheric Science / Meteorology, specifically Wind Wave Turbulence.
  • Explosive Engineering.
  • Regression Analysis.