Add to ORKGThe Haicheng, China earthquake of February 4, 1975, was the first major seismic event to be predicted. In this paper, long-period teleseismic P waves and S waves from this event are compared directly to time-domain synthetic seismograms to infer the source parameters. Results indicate the focal mechanism of the earthquake is nearly left-lateral strike slip along a northwest striking nodal plane (strike = 288°, dip = 78° N, rake = 342°). The strike of this nodal plane agrees with the trend of the aftershock distribution. Seismic moment is 3 × 10^(26) dyne-cm and source duration is 7 sec. Azimuthal variation of P-wave duration is attributed to fault propagation in a northwesterly direction along the strike of the aftershock zone. A model with...
The May 17, 1976 Gazli earthquake (m_b = 6.2, M_s = 7.0) has both seismological and engineering impo...
The accuracy of teleseismic estimates of moment, fault area, dislocation and stress drop was tested ...
The Tangshan earthquake (M_s = 7.7), of July 27, 1976 and its principal aftershock (M_s = 7.2), whic...
The Haicheng, China earthquake of February 4, 1975, was the first major seismic event to be predicte...
The source processes of the 4 January 1970, Tonghai earthquake (M_s = 7.5) and the 6 February 1973, ...
Graduation date: 1992On November 6, 1988, two strong earthquakes (Mw: 7.0 and 6.8) separated\ud by a...
Teleseismic, long-period P-waveforms are modeled to obtain estimates of the source parameters for t...
In this work we propose and apply a straightforward methodology for the automatic characterization o...
We located the aftershocks of the 4 February 1975 Haicheng, China, aftershock sequence using an arri...
The Pasadena seismograms of the Mongolian earthquake of December 4, 1957, were studied. Mantle Rayle...
Long-period teleseismic P and S waves from the WWSS and Canadian networks are modeled to determine t...
Teleseismic P, SV, and SH waves recorded by the WWSS and Canadian networks from the 1971 San Fernand...
Abstract:The spatial and temporal slip distribution of the Lushan earthquake was estimated using tel...
Fourier analysis of mantle Love and Rayleigh waves from the source of the Kamchatka earthquake of No...
The dynamical processes at the source of eleven deep-focus and intermediate-depth earthquakes that o...
The May 17, 1976 Gazli earthquake (m_b = 6.2, M_s = 7.0) has both seismological and engineering impo...
The accuracy of teleseismic estimates of moment, fault area, dislocation and stress drop was tested ...
The Tangshan earthquake (M_s = 7.7), of July 27, 1976 and its principal aftershock (M_s = 7.2), whic...
The Haicheng, China earthquake of February 4, 1975, was the first major seismic event to be predicte...
The source processes of the 4 January 1970, Tonghai earthquake (M_s = 7.5) and the 6 February 1973, ...
Graduation date: 1992On November 6, 1988, two strong earthquakes (Mw: 7.0 and 6.8) separated\ud by a...
Teleseismic, long-period P-waveforms are modeled to obtain estimates of the source parameters for t...
In this work we propose and apply a straightforward methodology for the automatic characterization o...
We located the aftershocks of the 4 February 1975 Haicheng, China, aftershock sequence using an arri...
The Pasadena seismograms of the Mongolian earthquake of December 4, 1957, were studied. Mantle Rayle...
Long-period teleseismic P and S waves from the WWSS and Canadian networks are modeled to determine t...
Teleseismic P, SV, and SH waves recorded by the WWSS and Canadian networks from the 1971 San Fernand...
Abstract:The spatial and temporal slip distribution of the Lushan earthquake was estimated using tel...
Fourier analysis of mantle Love and Rayleigh waves from the source of the Kamchatka earthquake of No...
The dynamical processes at the source of eleven deep-focus and intermediate-depth earthquakes that o...
The May 17, 1976 Gazli earthquake (m_b = 6.2, M_s = 7.0) has both seismological and engineering impo...
The accuracy of teleseismic estimates of moment, fault area, dislocation and stress drop was tested ...
The Tangshan earthquake (M_s = 7.7), of July 27, 1976 and its principal aftershock (M_s = 7.2), whic...