Add to ORKGNear-source strong motion velocity records and teleseismic short-period P waveforms are modeled to obtain the spatial and temporal distribution of slip for the 1984 Morgan Hill earthquake. Both forward modeling and constrained, least-squares inversion techniques are used to interpret the strong motion velocity waveforms in the frequency range of approximately 0.2 to 2.0 Hz. These data support a heady unilateral rupture to the southeast with a rupture propagation velocity of nine-tenths of the local S-wave velocity. The majority of the slip occurs over a fault length of 25 km and to a first approximation can be interpreted as two main source regions, each with an extent of about 5 km with their centers separated by about 12 kin. However, eac...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
We have used 24 broadband teleseismic and 48 components of local strong-motion velocity records of t...
A least-squares point-by-point inversion of strong ground motion and tele-seismic body waves is used...
Broadband, digital, teleseismic body waves (P and SH) are inverted to obtain the history of slip for...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
We have inverted the teleseismic P waveforms recorded by stations of the Global Digital Seismograph ...
We have inverted the teleseismic P waveforms recorded by stations of the Global Digital Seismograph ...
Abstract We use near-source (10 to 164 km) displacement seismograms to image the slip distribution a...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
We present the results of an analysis of the Michoacan and Landers earthquakes to constrain the kine...
We present the results of an analysis of the Michoacan and Landers earthquakes to constrain the kine...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
We have used 24 broadband teleseismic and 48 components of local strong-motion velocity records of t...
A least-squares point-by-point inversion of strong ground motion and tele-seismic body waves is used...
Broadband, digital, teleseismic body waves (P and SH) are inverted to obtain the history of slip for...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
We have inverted the teleseismic P waveforms recorded by stations of the Global Digital Seismograph ...
We have inverted the teleseismic P waveforms recorded by stations of the Global Digital Seismograph ...
Abstract We use near-source (10 to 164 km) displacement seismograms to image the slip distribution a...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
We present the results of an analysis of the Michoacan and Landers earthquakes to constrain the kine...
We present the results of an analysis of the Michoacan and Landers earthquakes to constrain the kine...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
A least-squares point-by-point inversion of strong ground motion and teleseismic body waves is used ...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...