Add to ORKGWe determined the variations in seismic structure beneath southern California by using a tomographic method of inversion on teleseismic P delays recorded with the Southern California Array. The algorithm employed was a modified form of an Algebraic Reconstruction Technique (ART) used in medical X‐ray imaging. Deconvolution with an empirically estimated point spread function was also used to help in focusing the image. The inversion reveals two prominent features beneath the region. The first is a thin, vertical wedge directly beneath the Transverse Ranges that is 2‐3% faster than the surrounding region. This feature deepens to the east, attaining a maximum depth of about 250 km beneath the San Bernardino Mountains. The second feature is a...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
A self-consistent regional-scale seismic velocity model with resolution from seismogenic depth to th...
Abstract. We determined the variations in seismic struc-ture beneath southern California by using a ...
P wave teleseismic travel time delays recorded by the Southern California Array are inverted by the ...
Summary. The large seismographic network in Southern California provides a unique opportunity for st...
We determined a detailed three-dimensional seismic velocity structure of the crust and mantle to a d...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
quake Center (SCEC) collected refraction and low-fold reflection data along a 150-km-long corridor e...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
Tomographic inversion of upper mantle P wave velocity heterogeneities beneath southern California sh...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
A self-consistent regional-scale seismic velocity model with resolution from seismogenic depth to th...
Abstract. We determined the variations in seismic struc-ture beneath southern California by using a ...
P wave teleseismic travel time delays recorded by the Southern California Array are inverted by the ...
Summary. The large seismographic network in Southern California provides a unique opportunity for st...
We determined a detailed three-dimensional seismic velocity structure of the crust and mantle to a d...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
We have determined a P-wave tomographic image of the crust and uppermost mantle in southern Californ...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
quake Center (SCEC) collected refraction and low-fold reflection data along a 150-km-long corridor e...
The azimuthal variation of teleseismic P-delays has been investigated for stations of the USGS-Calte...
Tomographic inversion of upper mantle P wave velocity heterogeneities beneath southern California sh...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
High-resolution tomographic images from Los Angeles Region Seismic Experiment (LARSE) array and sout...
A self-consistent regional-scale seismic velocity model with resolution from seismogenic depth to th...