Scattering Under Pasadena, California

Abstract

Teleseismic receiver functions for structure under PAS (Pasadena, CA) are derived from azimuthally-distributed teleseismic P waves recorded on Benioff 1-90 instrumentation. The broad-band three-component Benioff 1-90 system is peaked at one sec period and allows resolution of major crustal interfaces from large Ps conversions seen in the receiver function data. The observed body wave data are quite complex showing exceptionally large Ps conversions and scattered waves on horizontal components. Radial and tangential motions are of equal magnitude and show major off-azimuth converted Ps waves suggesting large scale crustal heterogeneity beneath the station. Stochastic simulations of ID plane layered structure show that geologically unreasonable ID models are required to fit the data. The observed coda decay yields a scattering Q estimate of 239 at 2 sec period using an energy flux model for a propagating plane wave interacting with a scattering layer over a homogeneous halfspace. Observed and synthetic coda decay follows the theoretical exponential decay predicted by the model and is due entirely to diffusion of coda energy out of the layer into the halfspace. PAS coda is compared to coda from deep teleseisms recorded at SCP (State College, PA) and it is seen that scattering is more severe at PAS as reflected in higher coda levels and slower decay rate. Analysis of a major Ps conversion arriving 3 seconds after direct P indicates that a major crustal discontinuity at about 20 km depth dips at high angles to the north under the San Gabriel Mountains. This interface probably represents the crustal tectonic boundary between the Transverse ranges and the Los Angeles basin.

Document Details

Document Type

Technical Report

Publication Date

Apr 01, 1988

Accession Number

ADA196311

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