Relative epicenter determination using P-wave arrival-time differences

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Relative epicenter determination using P-wave arrival-time differences

WILLIAM SPENCE

US GEOLOGICAL SURVEY OFFICE OF EARTHQUAKE STUDIES, BOX 25046, STOP 967, DENVER, COLORADO 80225

Abstract

A precise model for relocation of earthquakes of a region orthe multiple ruptures of a large earthquake, using P-wave arrival-timedifference data, is given by the equation of condition of thestandard single-event location model (Geiger model). The useof P-wave arrival-time differences provides ray path redundanciesfrom earthquakes in a limited source region to a given stationset. Thus, this relocation model implicitly compensates certaintime anomalies caused by lateral velocity heterogeneities, leadingto good relative locations without the requirement of a setof master residuals. Because the solution vector of the arrival-timedifference model may be significantly nonzero at convergence,the second-order terms of the Geiger model are derived and usedto determine the size of the neighborhood in which this arrival-timedifference formulation will give acceptable location resolution.Evaluation of these second-order terms shows that accurate,teleseismically-determined relative locations are possible withthe arrival-time difference method for events within distance of a reference earthquake'sepicenter. The use of this relocation method with teleseismicdata requires independent depth information. The cosine termrelative location model, often used with arrival-time differencedata to graphically locate multiple ruptures, is an approximationto the Geiger model as it is used here.

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