Add to ORKGThe state of stress in the Eastern California Shear Zone (ECSZ) changed significantly because of the occurrence of the 1992 M_w 6.1 Joshua Tree and the M_W 7.3 Landers earthquakes. To quantify this change, focal mechanisms from the 1975 Galway Lake sequence, the 1979 Homestead Valley sequence, background seismicity from 1981 to 1991, and the 1992 Landers sequence are inverted for the state of stress. In all cases, the intermediate principal stress axis (S2) remained vertical, and changes in the state of stress consisted of variations in the trend of maximum and minimum principal stress axes (S_1 and S_3) and small variations in the value of the relative stress magnitudes (ϕ). In general, the stress state in the ECSZ has S_1 trending east of...
Constraints on the current stress regime of the actively extending northern Basin and Range province...
Based on waveform data from a profile of aftershocks following the north-south trace of the 28 June ...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...
The state of stress in the Eastern California Shear Zone (ECSZ) changed significantly because of the...
Earthquake focal mechanisms from before and after the 1989 Loma Prieta, California earthquake are us...
The state of tectonic stress in the epicentral area of the 17 January 1994, Northridge earthquake (M...
We invert for the state of stress in the southern California crust using a catalogue of high quality...
The (M_W 6.1, 7.3, 6.2) 1992 Landers earthquakes began on April 23 with the M_W6.1 1992 Joshua Tree ...
Earthquake focal mechanisms are often inverted to obtain the deviatoric stress field. Because shear ...
Static stress change has been proposed as a mechanism of earthquake triggering. We quantitatively ev...
Stress‐drops for small to moderately sized earthquakes in Southern California are found to vary syst...
Abstract. The proximity in time (~7 years) and space (~20 km) between the 1992 M=7.3 Landers earthqu...
We present a new, high spatial resolution image of stress orientation in southern California based o...
The (M_L 5.8) Sierra Madre earthquake of 28 June 1991 occurred at a depth of 12 km under the San Gab...
We have synthesized the characteristics of the seismogenic zone in the east Los Angeles basin by ana...
Constraints on the current stress regime of the actively extending northern Basin and Range province...
Based on waveform data from a profile of aftershocks following the north-south trace of the 28 June ...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...
The state of stress in the Eastern California Shear Zone (ECSZ) changed significantly because of the...
Earthquake focal mechanisms from before and after the 1989 Loma Prieta, California earthquake are us...
The state of tectonic stress in the epicentral area of the 17 January 1994, Northridge earthquake (M...
We invert for the state of stress in the southern California crust using a catalogue of high quality...
The (M_W 6.1, 7.3, 6.2) 1992 Landers earthquakes began on April 23 with the M_W6.1 1992 Joshua Tree ...
Earthquake focal mechanisms are often inverted to obtain the deviatoric stress field. Because shear ...
Static stress change has been proposed as a mechanism of earthquake triggering. We quantitatively ev...
Stress‐drops for small to moderately sized earthquakes in Southern California are found to vary syst...
Abstract. The proximity in time (~7 years) and space (~20 km) between the 1992 M=7.3 Landers earthqu...
We present a new, high spatial resolution image of stress orientation in southern California based o...
The (M_L 5.8) Sierra Madre earthquake of 28 June 1991 occurred at a depth of 12 km under the San Gab...
We have synthesized the characteristics of the seismogenic zone in the east Los Angeles basin by ana...
Constraints on the current stress regime of the actively extending northern Basin and Range province...
Based on waveform data from a profile of aftershocks following the north-south trace of the 28 June ...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...