Single-station spectral discrimination using coda waves

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Single-station spectral discrimination using coda waves

Hans E. Hartse, W. Scott Phillips, Michael C. Fehler and Leigh S. House

Earth and Environmental Sciences Division Los Alamos National Laboratory, Los Alamos, New Mexico 87545

Abstract

Spectral discrimination methods applied at regional distancesare based on the observation that there is a difference in thefrequency content of the seismic waves radiated from the sourceregion of earthquakes and explosions. We have investigated aspectral discrimination method that exploits the scattered energycontained in the event codas of seismograms to measure the relativesource excitation of earthquakes and explosions as a functionof frequency. Key strengths of the coda method include the following:(1) it is not affected by source radiation pattern because thescattering process averages the radiation over the focal sphere,(2) path corrections are not required with the coda method becausecoda waves are scattered throughout a common crustal volume,(3) it can be successfully applied using data from only a singlestation, and (4) it can be successfully applied using data withclipped direct arrivals. To implement the coda method, we firstestimate a "type curve," which represents the average shapeof all the individual coda decay curves for a particular frequencyband. The shape of the type curve (as well as the shape of allindividual coda decay curves) is controlled by the scatteringand attenuation properties of the crustal volume sampled bythe coda waves (a common path effect). The amplitude of thetype curve is not defined, and we arbitrarily adjust it to havea zero mean. The amplitude difference between an individualevent coda decay curve and the type curve provides a relativemeasure of the event's source size within the particular frequencyband. We define this amplitude difference as the "relative sourcefactor." Our approach exploits all of an event's usable codafor each spectral measurement, thus providing a more stablemeasure of relative source size than could be obtained fromusing a predefined, fixed-length time window. Analysis of 27Nevada Test Site explosions and 15 southern Great Basin earthquakes(3.1 $less double equals$ M $less double equals$ 4.7), shows that the source factor difference betweenthe 0.5- to 1- and 2- to 4-Hz bands plotted against the 1- to2-Hz source factor is a stable event discriminant. The methodreliably distinguishes small explosions from small earthquakes(3.0 < M < 3.5), even if the explosions are overburied.Because the coda method requires only one seismic station, webelieve that it would be especially useful in identifying small,clandestine underground nuclear tests that occur far from establishednetworks.

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