Member Since 1983
Ken W. Hudnut
Seismic Expert, Southern California Edison
AGU Research
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Using Earthquake Science to Improve Communities' Seismic Resilience
HOW CAN WE IMPLEMENT AGU’S "SCIENCE FOR SOLUTIONS" TO ADDRESS SOCIETAL PROBLEMS
union | 11 december 2020
Ken W. Hudnut, Stuart P. Nishenko
Earthquake science informs seismic risk decision making in communities by measuring, quantifying and reducing the uncertainties in strong ground shaki...
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Observations and models of crustal deformation transients following the 2019 Ridgecrest, California, earthquake sequence
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES II
seismology | 12 december 2019
Fred F. Pollitz, Jessica R. Murray, Sarah E. Minso...
The 2019 Ridgecrest, California, earthquake sequence involved predominantly right-lateral strike slip on a NW-SE trending subvertical fault in the Jul...
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Near-Field Ground Motions from the 2019 M6.4 and M7.1 Ridgecrest, California, Earthquakes: Subdued Shaking due to Pervasive Non-Linear Site Response?
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES III
seismology | 12 december 2019
Susan E. Hough, Eric Thompson, Annemarie Baltay, G...
The 2019 Ridgecrest, California, earthquake sequence, which included a M6.4 event on 4 July and a M7.1 approximately 34 hours later, was recorded by o...
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Reconciling shallow and deep fault slip associated with the July 2019 Ridgecrest earthquake sequence
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES IV
seismology | 12 december 2019
Benjamin A. Brooks, Johanna Nevitt, Todd Ericksen,...
How deep and shallow fault slip are related is a question that has attracted much recent attention, in part because of the increase in resolution of s...
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Airborne Lidar and Electro-Optical Imagery Along Surface Ruptures of the 2019 Ridgecrest Earthquake Sequence, Southern California
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES V POSTERS
seismology | 11 december 2019
Ken W. Hudnut, Benjamin A. Brooks, Katherine M. Sc...
Surface rupture from the Ridgecrest earthquake sequence occurred on July 4 on a 17 km long, northeast-southwest oriented, left-lateral zone of faultin...
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Coseismic Slip and Afterslip of the M6.4 and M7.1 Ridgecrest Earthquakes Inferred Through Bayesian Inversion
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES VI POSTERS
seismology | 11 december 2019
Jessica R. Murray, Fred F. Pollitz, Sarah E. Minso...
Crustal deformation due to the July 4, 2019 M6.4 and July 6, 2019 M7.1 earthquakes of the Ridgecrest sequence was observed using a variety of methods,...
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Cross-Fault Interaction in the July 2019 Ridgecrest Earthquake Sequence, Southern California
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES I
seismology | 11 december 2019
Ken W. Hudnut, Janis L. Hernandez, Leonardo Seeber...
The July 2019 Ridgecrest earthquake sequence in southern California marked the intersection of two antithetic regional Holocene active fault systems, ...
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Rapid-response GPS following the 2019 Ridgecrest Earthquake Sequence
THE 2019 <EM>M</EM>6.4 SEARLES VALLEY AND <EM>M</EM>7.1 RIDGECREST EARTHQUAKES V POSTERS
seismology | 11 december 2019
Jerry L. Svarc, Benjamin A. Brooks, Mark H. Murray...
In response to the M6.4 July 4 Ridgecrest earthquake the USGS mobilized a rapid geodetic ground response comprising installation or reoccupation of 22...
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