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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Antelope Valley (1)
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Asia
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Far East
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Indonesia
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Honshu
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Primary terms
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crust (7)
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mantle (1)
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Basin and Range Province (1)
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Gulf Coastal Plain (1)
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Oceania
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Polynesia
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Hawaii (1)
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Tonga (1)
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Pacific Ocean
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North Pacific
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Northwest Pacific
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Nankai Trough (1)
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Philippine Sea (1)
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West Pacific
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Northwest Pacific
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California
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Monterey County California
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San Bernardino County California
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San Francisco Bay region (2)
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Southern California (3)
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Eastern California shear zone (1)
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Hawaii (1)
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Utah
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Virginia
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Walker Lane (2)
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Western U.S. (3)
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The 2023 US 50-State National Seismic Hazard Model: Overview and implications
The USGS 2023 Conterminous U.S. Time‐Independent Earthquake Rupture Forecast
Shallow Fault Slip of the 2020 M 5.1 Sparta, North Carolina, Earthquake
Comment on “Multievent Explosive Seismic Source for the 2022 M w 6.3 Hunga Tonga Submarine Volcanic Eruption” by Julien Thurin, Carl Tape, and Ryan Modrak
Preface to the Focus Section on Deformation Models for the U.S. National Seismic Hazard Model
Western U.S. Deformation Models for the 2023 Update to the U.S. National Seismic Hazard Model
Viscoelastic Fault‐Based Model of Crustal Deformation for the 2023 Update to the U.S. National Seismic Hazard Model
Kinematic Slip Model of the 2021 M 6.0 Antelope Valley, California, Earthquake
Postseismic Relaxation Following the 2019 Ridgecrest, California, Earthquake Sequence
Seismic and Geodetic Analysis of Rupture Characteristics of the 2020 M w 6.5 Monte Cristo Range, Nevada, Earthquake
Coseismic Fault Slip and Afterslip Associated with the 18 March 2020 M 5.7 Magna, Utah, Earthquake
Rupture Process of the M 6.5 Stanley, Idaho, Earthquake Inferred from Seismic Waveform and Geodetic Data
Kinematics of Fault Slip Associated with the 4–6 July 2019 Ridgecrest, California, Earthquake Sequence
Fault Slip Associated with the 2 September 2017 M 5.3 Sulphur Peak, Idaho, Earthquake and Aftershock Sequence
Geodetic Slip Model of the 3 September 2016 M w 5.8 Pawnee, Oklahoma, Earthquake: Evidence for Fault‐Zone Collapse
A Note on Adding Viscoelasticity to Earthquake Simulators
Persistent slip rate discrepancies in the eastern California (USA) shear zone
Interpretation of S Waves Generated by Near-Surface Chemical Explosions at SAFOD
The M w 6.0 24 August 2014 South Napa Earthquake
Regional seismic-wave propagation from the M5.8 23 August 2011, Mineral, Virginia, earthquake
The M5.8 23 August 2011 Mineral, Virginia, earthquake was felt over nearly the entire eastern United States and was recorded by a wide array of seismic broadband instruments. The earthquake occurred ~200 km southeast of the boundary between two distinct geologic belts, the Piedmont and Blue Ridge terranes to the southeast and the Valley and Ridge Province to the northwest. At a dominant period of 3 s, coherent postcritical P-wave (i.e., direct longitudinal waves trapped in the crustal waveguide) arrivals persist to a much greater distance for propagation paths toward the northwest quadrant than toward other directions; this is probably related to the relatively high crustal thickness beneath and west of the Appalachian Mountains. The seismic surface-wave arrivals comprise two distinct classes: those with weakly dispersed Rayleigh waves and those with strongly dispersed Rayleigh waves. We attribute the character of Rayleigh wave arrivals in the first class to wave propagation through a predominantly crystalline crust (Blue Ridge Mountains and Piedmont terranes) with a relatively thin veneer of sedimentary rock, whereas the temporal extent of the Rayleigh wave arrivals in the second class are well explained as the effect of the thick sedimentary cover of the Valley and Ridge Province and adjacent Appalachian Plateau province to its northwest. Broadband surface-wave ground velocity is amplified along both north-northwest and northeast azimuths from the Mineral, Virginia, source. The former may arise from lateral focusing effects arising from locally thick sedimentary cover in the Appalachian Basin, and the latter may result from directivity effects due to a northeast rupture propagation along the finite fault plane.