Publications
Project Acronym: SAFOD | State: Completed | Expedition ID: 5025
[2022]
[2021]
[2020]
[2019]
[2018]
[2017]
[2016]
[2015]
[2014]
[2013]
[2012]
[2011]
[2010]
[2009]
[2008]
[2007]
[2006]
[2005]
[2004]
[2003]
[2002]
[2000]
2022
Scuderi M
,
Carpenter B
.
Frictional stability and hydromechanical coupling of serpentinite-bearing fault gouge.
Geophysical Journal International. 2022 ; 231 (1): 290-305. [doi][doi]
Frictional stability and hydromechanical coupling of serpentinite-bearing fault gouge.
Geophysical Journal International. 2022 ; 231 (1): 290-305. [doi][doi]
2021
Li Y
.
Spatial-temporal characterization of the san andreas fault by fault-zone trapped waves at seismic experiment site, parkfield, california.
Earthquake Science. 2021 ; 34 (3): 261-285. [doi][doi]
Spatial-temporal characterization of the san andreas fault by fault-zone trapped waves at seismic experiment site, parkfield, california.
Earthquake Science. 2021 ; 34 (3): 261-285. [doi][doi]
Chavarria A
,
Goertz A
,
Karrenbach M
,
Paulsson B
,
Milligan P
,
Soutyrine V
,
Hardin A
,
Dushman D
,
LaFlame L
.
The use of VSP techniques for fault zone characterization: An example from the San Andreas Fault.
The Leading Edge. 2021 ; 26 (6): 770-776. [doi][doi]
The use of VSP techniques for fault zone characterization: An example from the San Andreas Fault.
The Leading Edge. 2021 ; 26 (6): 770-776. [doi][doi]
Holmes E
,
Gaughan A
,
Biddle D
,
Stevens F
,
Hadizadeh J
.
Geospatial management and analysis of microstructural data from san andreas fault observatory at depth (Safod) core samples.
ISPRS International Journal of Geo-Information. 2021 ; 10 (5): [doi][doi]
Geospatial management and analysis of microstructural data from san andreas fault observatory at depth (Safod) core samples.
ISPRS International Journal of Geo-Information. 2021 ; 10 (5): [doi][doi]
2020
Chang K
,
Zhang H
.
Passive Seismic Imaging of Near Vertical Structures Around the SAFOD Site, California, Jointly Using Scattered P and SH Waves.
Journal of Geophysical Research: Solid Earth. 2020 ; 125 (9): [doi][doi]
Passive Seismic Imaging of Near Vertical Structures Around the SAFOD Site, California, Jointly Using Scattered P and SH Waves.
Journal of Geophysical Research: Solid Earth. 2020 ; 125 (9): [doi][doi]
2019
Yang C
,
Niu F
,
Daley T
,
Taira T
.
Continuous measurement of stress-induced travel-time variations at SAFOD.
Seismological Research Letters. 2019 ; 90 (1): 212-218. [doi][doi]
Continuous measurement of stress-induced travel-time variations at SAFOD.
Seismological Research Letters. 2019 ; 90 (1): 212-218. [doi][doi]
Lellouch A
,
Yuan S
,
Spica Z
,
Biondi B
,
Ellsworth W
.
Seismic Velocity Estimation Using Passive Downhole Distributed Acoustic Sensing Records: Examples From the San Andreas Fault Observatory at Depth.
Journal of Geophysical Research: Solid Earth. 2019 ; 124 (7): 6931-6948. [doi][doi]
Seismic Velocity Estimation Using Passive Downhole Distributed Acoustic Sensing Records: Examples From the San Andreas Fault Observatory at Depth.
Journal of Geophysical Research: Solid Earth. 2019 ; 124 (7): 6931-6948. [doi][doi]
2018
Hadizadeh J
,
Boyle A
.
A study of secondary pyrite deformation and calcite veins in SAFOD damage zone with implications for aseismic creep deformation mechanism at depths >3 km.
Journal of Structural Geology. 2018 ; 117 14-26. [doi][doi]
A study of secondary pyrite deformation and calcite veins in SAFOD damage zone with implications for aseismic creep deformation mechanism at depths >3 km.
Journal of Structural Geology. 2018 ; 117 14-26. [doi][doi]
Moore D
,
McLaughlin R
,
Lienkaemper J
.
Serpentinite-Rich Gouge in a Creeping Segment of the Bartlett Springs Fault, Northern California: Comparison With SAFOD and Implications for Seismic Hazard.
Tectonics. 2018 ; 37 (12): 4515-4534. [doi][doi]
Serpentinite-Rich Gouge in a Creeping Segment of the Bartlett Springs Fault, Northern California: Comparison With SAFOD and Implications for Seismic Hazard.
Tectonics. 2018 ; 37 (12): 4515-4534. [doi][doi]
2017
Kaneko Y
,
Carpenter B
,
Nielsen S
.
Nucleation process of magnitude 2 repeating earthquakes on the San Andreas Fault predicted by rate-and-state fault models with SAFOD drill core data.
Geophysical Research Letters. 2017 ; 44 (1): 162-173. [doi][doi]
Nucleation process of magnitude 2 repeating earthquakes on the San Andreas Fault predicted by rate-and-state fault models with SAFOD drill core data.
Geophysical Research Letters. 2017 ; 44 (1): 162-173. [doi][doi]
Phillips N
,
White J
.
Grain size-dependent strength of phyllosilicate-rich gouges in the shallow crust: Insights from the SAFOD site.
Journal of Geophysical Research: Solid Earth. 2017 ; 122 (7): 5789-5812. [doi][doi]
Grain size-dependent strength of phyllosilicate-rich gouges in the shallow crust: Insights from the SAFOD site.
Journal of Geophysical Research: Solid Earth. 2017 ; 122 (7): 5789-5812. [doi][doi]
Upton P
,
Coussens J
,
Allen M
,
Baratin L
,
Barth N
,
Becroft L
,
Boles A
,
Broderick N
,
Janku-Capova L
,
Carpenter B
,
Célérier B
,
Cooper A
,
Coutts A
,
Craw L
,
Doan M
,
Eccles J
,
Faulkner D
,
Grieve J
,
Grochowski J
,
Gulley A
,
Hartog A
,
Jacobs K
,
Jeppson T
,
Kato N
,
Keys S
,
Kometani Y
,
Lin W
,
Lukacs A
,
Mallyon D
,
Massiot C
,
Mathewson L
,
Melosh B
,
Menzies C
,
Moore J
,
Morales L
,
Morgan C
,
Mori H
,
Niemeijer A
,
Nishikawa O
,
Prior D
,
Savage M
,
Schleicher A
,
Shigematsu N
,
Taylor-Offord S
,
Teagle D
,
Tobin H
,
Valdez R
,
Weaver K
,
Wiersberg T
,
Woodman N
,
Zimmer M
.
Extreme hydrothermal conditions at an active plate-bounding fault.
Nature. 2017 ; 546 (7656): 137-140. [doi][doi]
Extreme hydrothermal conditions at an active plate-bounding fault.
Nature. 2017 ; 546 (7656): 137-140. [doi][doi]
2016
Kim A
,
Dreger D
,
Taira T
,
Nadeau R
.
Changes in repeating earthquake slip behavior following the 2004 Parkfield main shock from waveform empirical Green's functions finite-source inversion.
Journal of Geophysical Research: Solid Earth. 2016 ; 121 (3): 1910-1926. [doi][doi]
Changes in repeating earthquake slip behavior following the 2004 Parkfield main shock from waveform empirical Green's functions finite-source inversion.
Journal of Geophysical Research: Solid Earth. 2016 ; 121 (3): 1910-1926. [doi][doi]
Luetkemeyer P
,
Kirschner D
,
Huntington K
,
Chester J
,
Chester F
,
Evans J
.
Constraints on paleofluid sources using the clumped-isotope thermometry of carbonate veins from the SAFOD (San Andreas Fault Observatory at Depth) borehole.
Tectonophysics. 2016 ; 690 174-189. [doi][doi]
Constraints on paleofluid sources using the clumped-isotope thermometry of carbonate veins from the SAFOD (San Andreas Fault Observatory at Depth) borehole.
Tectonophysics. 2016 ; 690 174-189. [doi][doi]
Ikari M
,
Carpenter B
,
Kopf A
.
Elevated time-dependent strengthening rates observed in San Andreas Fault drilling samples.
Earth and Planetary Science Letters. 2016 ; 450 164-172. [doi][doi]
Elevated time-dependent strengthening rates observed in San Andreas Fault drilling samples.
Earth and Planetary Science Letters. 2016 ; 450 164-172. [doi][doi]
Wojatschke J
,
Scuderi M
,
Warr L
,
Carpenter B
,
Saffer D
,
Marone C
.
Experimental constraints on the relationship between clay abundance, clay fabric, and frictional behavior for the Central Deforming Zone of the San Andreas Fault.
Geochemistry, Geophysics, Geosystems. 2016 ; 17 (10): 3865-3881. [doi][doi]
Experimental constraints on the relationship between clay abundance, clay fabric, and frictional behavior for the Central Deforming Zone of the San Andreas Fault.
Geochemistry, Geophysics, Geosystems. 2016 ; 17 (10): 3865-3881. [doi][doi]
Moore D
,
Lockner D
,
Hickman S
.
Hydrothermal frictional strengths of rock and mineral samples relevant to the creeping section of the San Andreas Fault.
Journal of Structural Geology. 2016 ; 89 153-167. [doi][doi]
Hydrothermal frictional strengths of rock and mineral samples relevant to the creeping section of the San Andreas Fault.
Journal of Structural Geology. 2016 ; 89 153-167. [doi][doi]
2015
Morrow C
,
Lockner D
,
Hickman S
.
Low resistivity and permeability in actively deforming shear zones on the San Andreas Fault at SAFOD.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (12): 8240-8258. [doi][doi]
Low resistivity and permeability in actively deforming shear zones on the San Andreas Fault at SAFOD.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (12): 8240-8258. [doi][doi]
Jeppson T
,
Tobin H
.
San Andreas fault zone velocity structure at SAFOD at core, log, and seismic scales.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (7): 4983-4997. [doi][doi]
San Andreas fault zone velocity structure at SAFOD at core, log, and seismic scales.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (7): 4983-4997. [doi][doi]
French M
,
Chester F
,
Chester J
.
Micromechanisms of creep in clay-rich gouge from the Central Deforming Zone of the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (2): 827-849. [doi][doi]
Micromechanisms of creep in clay-rich gouge from the Central Deforming Zone of the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (2): 827-849. [doi][doi]
Bennington N
,
Zhang H
,
Bedrosian P
.
Joint Inversion of Seismic and Magnetotelluric Data in the Parkfield Region of California Using the Normalized Cross-Gradient Constraint.
Pure and Applied Geophysics. 2015 ; 172 (5): 1033-1052. [doi][doi]
Joint Inversion of Seismic and Magnetotelluric Data in the Parkfield Region of California Using the Normalized Cross-Gradient Constraint.
Pure and Applied Geophysics. 2015 ; 172 (5): 1033-1052. [doi][doi]
Bradbury K
,
Davis C
,
Shervais J
,
Janecke S
,
Evans J
.
Composition, Alteration, and Texture of Fault-Related Rocks from Safod Core and Surface Outcrop Analogs: Evidence for Deformation Processes and Fluid-Rock Interactions.
Pure and Applied Geophysics. 2015 ; 172 (5): 1053-1078. [doi][doi]
Composition, Alteration, and Texture of Fault-Related Rocks from Safod Core and Surface Outcrop Analogs: Evidence for Deformation Processes and Fluid-Rock Interactions.
Pure and Applied Geophysics. 2015 ; 172 (5): 1053-1078. [doi][doi]
Pollitz F
,
Ellsworth W
,
Rubinstein J
.
Interpretation of s waves generated by near-surface chemical explosions at SAFOD.
Bulletin of the Seismological Society of America. 2015 ; 105 (6): 2835-2851. [doi][doi]
Interpretation of s waves generated by near-surface chemical explosions at SAFOD.
Bulletin of the Seismological Society of America. 2015 ; 105 (6): 2835-2851. [doi][doi]
Carpenter B
,
Saffer D
,
Marone C
.
Frictional properties of the active San Andreas Fault at SAFOD: Implications for fault strength and slip behavior.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (7): 5273-5289. [doi][doi]
Frictional properties of the active San Andreas Fault at SAFOD: Implications for fault strength and slip behavior.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (7): 5273-5289. [doi][doi]
Abercrombie R
.
Investigating uncertainties in empirical green’s function analysis of earthquake source parameters.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (6): 4263-4277. [doi][doi]
Investigating uncertainties in empirical green’s function analysis of earthquake source parameters.
Journal of Geophysical Research: Solid Earth. 2015 ; 120 (6): 4263-4277. [doi][doi]
2014
Janssen C
,
Wirth R
,
Wenk H
,
Morales L
,
Naumann R
,
Kienast M
,
Song S
,
Dresen G
.
Faulting processes in active faults - Evidences from TCDP and SAFOD drill core samples.
Journal of Structural Geology. 2014 ; 65 100-116. [doi][doi]
Faulting processes in active faults - Evidences from TCDP and SAFOD drill core samples.
Journal of Structural Geology. 2014 ; 65 100-116. [doi][doi]
Richard J
,
Gratier J
,
Doan M
,
Boullier A
,
Renard F
.
Rock and mineral transformations in a fault zone leading to permanent creep: Interactions between brittle and viscous mechanisms in the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2014 ; 119 (11): 8132-8153. [doi][doi]
Rock and mineral transformations in a fault zone leading to permanent creep: Interactions between brittle and viscous mechanisms in the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2014 ; 119 (11): 8132-8153. [doi][doi]
Zhang H
,
Maceira M
,
Roux P
,
Thurber C
.
Joint Inversion of Body-Wave Arrival Times and Surface-Wave Dispersion for Three-Dimensional Seismic Structure Around SAFOD.
Pure and Applied Geophysics. 2014 ; 171 (11): 3013-3022. [doi][doi]
Joint Inversion of Body-Wave Arrival Times and Surface-Wave Dispersion for Three-Dimensional Seismic Structure Around SAFOD.
Pure and Applied Geophysics. 2014 ; 171 (11): 3013-3022. [doi][doi]
Coble C
,
French M
,
Chester F
,
Chester J
,
Kitajima H
.
In situ frictional properties of San Andreas Fault gouge at SAFOD.
Geophysical Journal International. 2014 ; 199 (2): 956-967. [doi][doi]
In situ frictional properties of San Andreas Fault gouge at SAFOD.
Geophysical Journal International. 2014 ; 199 (2): 956-967. [doi][doi]
Morrow C
,
Lockner D
,
Moore D
,
Hickman S
.
Deep permeability of the San Andreas Fault from San Andreas Fault Observatory at Depth (SAFOD) core samples.
Journal of Structural Geology. 2014 ; 64 99-114. [doi][doi]
Deep permeability of the San Andreas Fault from San Andreas Fault Observatory at Depth (SAFOD) core samples.
Journal of Structural Geology. 2014 ; 64 99-114. [doi][doi]
Moore D
.
Comparative mineral chemistry and textures of SAFOD fault gouge and damage-zone rocks.
Journal of Structural Geology. 2014 ; 68 (PA): 82-96. [doi][doi]
Comparative mineral chemistry and textures of SAFOD fault gouge and damage-zone rocks.
Journal of Structural Geology. 2014 ; 68 (PA): 82-96. [doi][doi]
Johri M
,
Zoback M
,
Hennings P
.
A scaling law to characterize fault-damage zones at reservoir depths.
AAPG Bulletin. 2014 ; 98 (10): 2057-2079. [doi][doi]
A scaling law to characterize fault-damage zones at reservoir depths.
AAPG Bulletin. 2014 ; 98 (10): 2057-2079. [doi][doi]
Warr L
,
Wojatschke J
,
Carpenter B
,
Marone C
,
Schleicher A
,
Pluijm B
.
A "slice-and-view" (FIB-SEM) study of clay gouge from the SAFOD creeping section of the San Andreas Fault at ~2.7km depth.
Journal of Structural Geology. 2014 ; 69 (PA): 234-244. [doi][doi]
A "slice-and-view" (FIB-SEM) study of clay gouge from the SAFOD creeping section of the San Andreas Fault at ~2.7km depth.
Journal of Structural Geology. 2014 ; 69 (PA): 234-244. [doi][doi]
French M
,
Kitajima H
,
Chester J
,
Chester F
,
Hirose T
.
Displacement and dynamic weakening processes in smectite-rich gouge from the Central Deforming Zone of the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2014 ; 119 (3): 1777-1802. [doi][doi]
Displacement and dynamic weakening processes in smectite-rich gouge from the Central Deforming Zone of the San Andreas Fault.
Journal of Geophysical Research: Solid Earth. 2014 ; 119 (3): 1777-1802. [doi][doi]
2013
Schleicher A
,
Hofmann H
.
Constraining clay hydration state and its role in active fault systems.
Geochemistry, Geophysics, Geosystems. 2013 ; 14 (4): 1039-1052. [doi][doi]
Constraining clay hydration state and its role in active fault systems.
Geochemistry, Geophysics, Geosystems. 2013 ; 14 (4): 1039-1052. [doi][doi]
Babaie H
,
Broda Cindi M
,
Hadizadeh J
,
Kumar A
.
SAFOD Brittle Microstructure and Mechanics Knowledge Base (BM2KB).
Computers and Geosciences. 2013 ; 56 83-91. [doi][doi]
SAFOD Brittle Microstructure and Mechanics Knowledge Base (BM2KB).
Computers and Geosciences. 2013 ; 56 83-91. [doi][doi]
Tietze K
,
Ritter O
.
Three-dimensional magnetotelluric inversion in practice-the electrical conductivity structure of the San Andreas fault in central California.
Geophysical Journal International. 2013 ; 195 (1): 130-147. [doi][doi]
Three-dimensional magnetotelluric inversion in practice-the electrical conductivity structure of the San Andreas fault in central California.
Geophysical Journal International. 2013 ; 195 (1): 130-147. [doi][doi]
2012
Lewis M
,
Gerstoft P
.
Shear wave anisotropy from cross-correlation of seismic noise in the Parkfield pilot hole.
Geophysical Journal International. 2012 ; 188 (2): 626-630. [doi][doi]
Shear wave anisotropy from cross-correlation of seismic noise in the Parkfield pilot hole.
Geophysical Journal International. 2012 ; 188 (2): 626-630. [doi][doi]
Becken M
,
Ritter O
.
Magnetotelluric Studies at the San Andreas Fault Zone: Implications for the Role of Fluids.
Surveys in Geophysics. 2012 ; 33 (1): 65-105. [doi][doi]
Magnetotelluric Studies at the San Andreas Fault Zone: Implications for the Role of Fluids.
Surveys in Geophysics. 2012 ; 33 (1): 65-105. [doi][doi]
Pollitz F
,
Rubinstein J
,
Ellsworth W
.
Source Characterization of near-surface chemical explosions at SAFOD.
Bulletin of the Seismological Society of America. 2012 ; 102 (4): 1348-1360. [doi][doi]
Source Characterization of near-surface chemical explosions at SAFOD.
Bulletin of the Seismological Society of America. 2012 ; 102 (4): 1348-1360. [doi][doi]
Ryberg T
,
Hole J
,
Fuis G
,
Rymer M
,
Bleibinhaus F
,
Stromeyer D
,
Bauer K
.
Tomographic V p and V s structure of the California Central Coast Ranges, in the vicinity of SAFOD, from controlled-source seismic data.
Geophysical Journal International. 2012 ; 190 (3): 1341-1360. [doi][doi]
Tomographic V p and V s structure of the California Central Coast Ranges, in the vicinity of SAFOD, from controlled-source seismic data.
Geophysical Journal International. 2012 ; 190 (3): 1341-1360. [doi][doi]
Popov A
,
Sobolev S
,
Zoback M
.
Modeling evolution of the San Andreas Fault system in northern and central California.
Geochemistry, Geophysics, Geosystems. 2012 ; 13 (8): [doi][doi]
Modeling evolution of the San Andreas Fault system in northern and central California.
Geochemistry, Geophysics, Geosystems. 2012 ; 13 (8): [doi][doi]
Spencer J
,
Hadizadeh J
,
Gratier J
,
Doan M
.
Dating deep? Luminescence studies of fault gouge from the San Andreas Fault zone 2.6 km beneath Earth's surface.
Quaternary Geochronology. 2012 ; 10 280-284. [doi][doi]
Dating deep? Luminescence studies of fault gouge from the San Andreas Fault zone 2.6 km beneath Earth's surface.
Quaternary Geochronology. 2012 ; 10 280-284. [doi][doi]
Carpenter B
,
Saffer D
,
Marone C
.
Frictional properties and sliding stability of the San Andreas fault from deep drill core.
Geology. 2012 ; 40 (8): 759-762. [doi][doi]
Frictional properties and sliding stability of the San Andreas fault from deep drill core.
Geology. 2012 ; 40 (8): 759-762. [doi][doi]
Moore D
,
Rymer M
.
Correlation of clayey gouge in a surface exposure of serpentinite in the San Andreas Fault with gouge from the San Andreas Fault Observatory at Depth (SAFOD).
Journal of Structural Geology. 2012 ; 38 51-60. [doi][doi]
Correlation of clayey gouge in a surface exposure of serpentinite in the San Andreas Fault with gouge from the San Andreas Fault Observatory at Depth (SAFOD).
Journal of Structural Geology. 2012 ; 38 51-60. [doi][doi]
Janssen C
,
Kanitpanyacharoen W
,
Wenk H
,
Wirth R
,
Morales L
,
Rybacki E
,
Kienast M
,
Dresen G
.
Clay fabrics in SAFOD core samples.
Journal of Structural Geology. 2012 ; 43 118-127. [doi][doi]
Clay fabrics in SAFOD core samples.
Journal of Structural Geology. 2012 ; 43 118-127. [doi][doi]
Schleicher A
,
Pluijm B
,
Warr L
.
Chlorite-smectite clay minerals and fault behavior: New evidence from the San Andreas Fault Observatory at Depth (SAFOD) core.
Lithosphere. 2012 ; 4 (3): 209-220. [doi][doi]
Chlorite-smectite clay minerals and fault behavior: New evidence from the San Andreas Fault Observatory at Depth (SAFOD) core.
Lithosphere. 2012 ; 4 (3): 209-220. [doi][doi]
Hadizadeh J
,
Mittempergher S
,
Gratier J
,
Renard F
,
Di Toro G
,
Richard J
,
Babaie H
.
A microstructural study of fault rocks from the SAFOD: Implications for the deformation mechanisms and strength of the creeping segment of the San Andreas Fault.
Journal of Structural Geology. 2012 ; 42 246-260. [doi][doi]
A microstructural study of fault rocks from the SAFOD: Implications for the deformation mechanisms and strength of the creeping segment of the San Andreas Fault.
Journal of Structural Geology. 2012 ; 42 246-260. [doi][doi]
2011
Pollitz F
.
High-frequency Born synthetic seismograms based on coupled normal modes.
Geophysical Journal International. 2011 ; 187 (3): 1420-1442. [doi][doi]
High-frequency Born synthetic seismograms based on coupled normal modes.
Geophysical Journal International. 2011 ; 187 (3): 1420-1442. [doi][doi]
Weymer B
,
Firth J
,
Rumford P
,
Chester F
,
Chester J
,
Lockner D
.
SAFOD Phase III Core sampling and data management at the Gulf Coast repository.
Scientific Drilling. 2011 ; (1): 48-50. [doi][doi]
SAFOD Phase III Core sampling and data management at the Gulf Coast repository.
Scientific Drilling. 2011 ; (1): 48-50. [doi][doi]
Janssen C
,
Wirth R
,
Reinicke A
,
Rybacki E
,
Naumann R
,
Wenk H
,
Dresen G
.
Nanoscale porosity in SAFOD core samples (San Andreas Fault).
Earth and Planetary Science Letters. 2011 ; 301 (1-2): 179-189. [doi][doi]
Nanoscale porosity in SAFOD core samples (San Andreas Fault).
Earth and Planetary Science Letters. 2011 ; 301 (1-2): 179-189. [doi][doi]
Wenk H
,
Janssen C
,
Kenkmann T
,
Dresen G
.
Mechanical twinning in quartz: Shock experiments, impact, pseudotachylites and fault breccias.
Tectonophysics. 2011 ; 510 (1-2): 69-79. [doi][doi]
Mechanical twinning in quartz: Shock experiments, impact, pseudotachylites and fault breccias.
Tectonophysics. 2011 ; 510 (1-2): 69-79. [doi][doi]
Rybacki E
,
Janssen C
,
Wirth R
,
Chen K
,
Wenk H
,
Stromeyer D
,
Dresen G
.
Low-temperature deformation in calcite veins of SAFOD core samples (San Andreas Fault) - Microstructural analysis and implications for fault rheology.
Tectonophysics. 2011 ; 509 (1-2): 107-119. [doi][doi]
Low-temperature deformation in calcite veins of SAFOD core samples (San Andreas Fault) - Microstructural analysis and implications for fault rheology.
Tectonophysics. 2011 ; 509 (1-2): 107-119. [doi][doi]
Lockner D
,
Morrow C
,
Moore D
,
Hickman S
.
Low strength of deep San Andreas fault gouge from SAFOD core.
Nature. 2011 ; 472 (7341): 82-86. [doi][doi]
Low strength of deep San Andreas fault gouge from SAFOD core.
Nature. 2011 ; 472 (7341): 82-86. [doi][doi]
Bradbury K
,
Evans J
,
Chester J
,
Chester F
,
Kirschner D
.
Lithology and internal structure of the San Andreas fault at depth based on characterization of Phase 3 whole-rock core in the San Andreas Fault Observatory at Depth (SAFOD) borehole.
Earth and Planetary Science Letters. 2011 ; 310 (1-2): 131-144. [doi][doi]
Lithology and internal structure of the San Andreas fault at depth based on characterization of Phase 3 whole-rock core in the San Andreas Fault Observatory at Depth (SAFOD) borehole.
Earth and Planetary Science Letters. 2011 ; 310 (1-2): 131-144. [doi][doi]
Zoback M
,
Hickman S
,
Ellsworth W
.
Scientific drilling into the San Andreas fault zone - An overview of SAFOD's first five years.
Scientific Drilling. 2011 ; (1): 14-28. [doi][doi]
Scientific drilling into the San Andreas fault zone - An overview of SAFOD's first five years.
Scientific Drilling. 2011 ; (1): 14-28. [doi][doi]
Wang C
.
High pore pressure, or its absence, in the San Andreas fault.
Geology. 2011 ; 39 (11): 1047-1050. [doi][doi]
High pore pressure, or its absence, in the San Andreas fault.
Geology. 2011 ; 39 (11): 1047-1050. [doi][doi]
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Fault rocks from the SAFOD core samples: Implications for weakening at shallow depths along the San Andreas Fault, California.
Journal of Structural Geology. 2011 ; 33 (2): 132-144. [doi][doi]
Fault rocks from the SAFOD core samples: Implications for weakening at shallow depths along the San Andreas Fault, California.
Journal of Structural Geology. 2011 ; 33 (2): 132-144. [doi][doi]
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Evidence of transient increases of fluid pressure in SAFOD phase III cores.
Geophysical Research Letters. 2011 ; 38 (3): [doi][doi]
Evidence of transient increases of fluid pressure in SAFOD phase III cores.
Geophysical Research Letters. 2011 ; 38 (3): [doi][doi]
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Geological Society Special Publication. 2011 ; 359 (1): 39-53. [doi][doi]
Deep rock damage in the san andreas fault revealed by P- and S-type fault-zone-guided waves.
Geological Society Special Publication. 2011 ; 359 (1): 39-53. [doi][doi]
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Correlation between deep fluids, tremor and creep along the central San Andreas fault.
Nature. 2011 ; 480 (7375): 87-90. [doi][doi]
Correlation between deep fluids, tremor and creep along the central San Andreas fault.
Nature. 2011 ; 480 (7375): 87-90. [doi][doi]
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Tectonophysics. 2011 ; 503 (1-2): 45-51. [doi][doi]
Consistent trends in the true triaxial strength and deformability of cores extracted from ICDP deep scientific holes on three continents.
Tectonophysics. 2011 ; 503 (1-2): 45-51. [doi][doi]
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Chemical and isotope compositions of drilling mud gas from the San Andreas Fault Observatory at Depth (SAFOD) boreholes: Implications on gas migration and the permeability structure of the San Andreas Fault.
Chemical Geology. 2011 ; 284 (1-2): 148-159. [doi][doi]
Chemical and isotope compositions of drilling mud gas from the San Andreas Fault Observatory at Depth (SAFOD) boreholes: Implications on gas migration and the permeability structure of the San Andreas Fault.
Chemical Geology. 2011 ; 284 (1-2): 148-159. [doi][doi]
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Helium measurements of pore fluids obtained from the San Andreas Fault Observatory at Depth (SAFOD, USA) drill cores.
Hydrogeology Journal. 2011 ; 19 (1): 237-247. [doi][doi]
Helium measurements of pore fluids obtained from the San Andreas Fault Observatory at Depth (SAFOD, USA) drill cores.
Hydrogeology Journal. 2011 ; 19 (1): 237-247. [doi][doi]
2010
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Migration-based location of seismicity recorded with an array installed in the main hole of the San Andreas Fault Observatory at Depth (SAFOD).
Geophysical Journal International. 2010 ; 182 (1): 477-492. [doi][doi]
Migration-based location of seismicity recorded with an array installed in the main hole of the San Andreas Fault Observatory at Depth (SAFOD).
Geophysical Journal International. 2010 ; 182 (1): 477-492. [doi][doi]
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Seismic imaging using microseismic events: Results from the San Andreas Fault System at SAFOD.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (12): [doi][doi]
Seismic imaging using microseismic events: Results from the San Andreas Fault System at SAFOD.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (12): [doi][doi]
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Scientific drilling into the san andreas fault zone.
Eos. 2010 ; 91 (22): 197-199. [doi][doi]
Scientific drilling into the san andreas fault zone.
Eos. 2010 ; 91 (22): 197-199. [doi][doi]
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Scale-invariant stress orientations and seismicity rates near the San Andreas Fault.
Geophysical Research Letters. 2010 ; 37 (24): [doi][doi]
Scale-invariant stress orientations and seismicity rates near the San Andreas Fault.
Geophysical Research Letters. 2010 ; 37 (24): [doi][doi]
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Preferred orientation of phyllosilicates: Comparison of fault gouge, shale and schist.
Journal of Structural Geology. 2010 ; 32 (4): 478-489. [doi][doi]
Preferred orientation of phyllosilicates: Comparison of fault gouge, shale and schist.
Journal of Structural Geology. 2010 ; 32 (4): 478-489. [doi][doi]
Blum J
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Observations of rayleigh-wave phase velocity and coseismic deformation using an optical fiber, interferometric vertical strainmeter at the SAFOD borehole, California.
Bulletin of the Seismological Society of America. 2010 ; 100 (5 A): 1879-1891. [doi][doi]
Observations of rayleigh-wave phase velocity and coseismic deformation using an optical fiber, interferometric vertical strainmeter at the SAFOD borehole, California.
Bulletin of the Seismological Society of America. 2010 ; 100 (5 A): 1879-1891. [doi][doi]
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Nanocoatings of clay and creep of the San Andreas fault at Parkfield, California.
Geology. 2010 ; 38 (7): 667-670. [doi][doi]
Nanocoatings of clay and creep of the San Andreas fault at Parkfield, California.
Geology. 2010 ; 38 (7): 667-670. [doi][doi]
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Fault zone structure at depth from differential dispersion of seismic guided waves: Evidence for a deep waveguide on the San Andreas Fault.
Geophysical Journal International. 2010 ; 182 (1): 343-354. [doi][doi]
Fault zone structure at depth from differential dispersion of seismic guided waves: Evidence for a deep waveguide on the San Andreas Fault.
Geophysical Journal International. 2010 ; 182 (1): 343-354. [doi][doi]
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Laboratory-based maximum slip rates in earthquake rupture zones and radiated energy.
Bulletin of the Seismological Society of America. 2010 ; 100 (6): 3250-3260. [doi][doi]
Laboratory-based maximum slip rates in earthquake rupture zones and radiated energy.
Bulletin of the Seismological Society of America. 2010 ; 100 (6): 3250-3260. [doi][doi]
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Geophysical properties within the San Andreas Fault Zone at the San Andreas Fault Observatory at Depth and their relationships to rock properties and fault zone structure.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (12): [doi][doi]
Geophysical properties within the San Andreas Fault Zone at the San Andreas Fault Observatory at Depth and their relationships to rock properties and fault zone structure.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (12): [doi][doi]
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Erratum: Constraints on the stress state of the San Andreas Fault with analysis based on core and cuttings from San Andreas Fault Observatory at Depth (SAFOD) drilling phases 1 and 2 (Journal of Geophysical Research B: Solid Earth).
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (3): [doi][doi]
Erratum: Constraints on the stress state of the San Andreas Fault with analysis based on core and cuttings from San Andreas Fault Observatory at Depth (SAFOD) drilling phases 1 and 2 (Journal of Geophysical Research B: Solid Earth).
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (3): [doi][doi]
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EarthScope - The latest advances of the united state's deep exploration program.
Acta Geologica Sinica (English Edition). 2010 ; 84 (6): 909-926.
EarthScope - The latest advances of the united state's deep exploration program.
Acta Geologica Sinica (English Edition). 2010 ; 84 (6): 909-926.
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Distribution of seismicity across strike-slip faults in California.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (5): [doi][doi]
Distribution of seismicity across strike-slip faults in California.
Journal of Geophysical Research: Solid Earth. 2010 ; 115 (5): [doi][doi]
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Geophysical Research Letters. 2010 ; 37 (1): [doi][doi]
Amorphous material in SAFOD core samples (San Andreas Fault): Evidence for crush-origin pseudotachylytes?.
Geophysical Research Letters. 2010 ; 37 (1): [doi][doi]
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Advances of international continental scientific drilling program.
Acta Geologica Sinica (English Edition). 2010 ; 84 (6): 873-886.
Advances of international continental scientific drilling program.
Acta Geologica Sinica (English Edition). 2010 ; 84 (6): 873-886.
2009
Zhang H
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Three-dimensional passive seismic waveform imaging around the SAFOD site, California, using the generalized Radon transform.
Geophysical Research Letters. 2009 ; 36 (23): [doi][doi]
Three-dimensional passive seismic waveform imaging around the SAFOD site, California, using the generalized Radon transform.
Geophysical Research Letters. 2009 ; 36 (23): [doi][doi]
Zhang H
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Joint inversion for Vp, Vs, and Vp/Vs at SAFOD, Parkfield, California.
Geochemistry, Geophysics, Geosystems. 2009 ; 10 (11): [doi][doi]
Joint inversion for Vp, Vs, and Vp/Vs at SAFOD, Parkfield, California.
Geochemistry, Geophysics, Geosystems. 2009 ; 10 (11): [doi][doi]
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Static stress drop associated with brittle slip events on exhumed faults.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (2): [doi][doi]
Static stress drop associated with brittle slip events on exhumed faults.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (2): [doi][doi]
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On the origin of mixed-layered clay minerals from the San Andreas Fault at 2.5-3 km vertical depth (SAFOD drillhole at Parkfield, California).
Contributions to Mineralogy and Petrology. 2009 ; 157 (2): 173-187. [doi][doi]
On the origin of mixed-layered clay minerals from the San Andreas Fault at 2.5-3 km vertical depth (SAFOD drillhole at Parkfield, California).
Contributions to Mineralogy and Petrology. 2009 ; 157 (2): 173-187. [doi][doi]
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Broadband records of earthquakes in deep gold mines and a comparison with results from SAFOD, California.
Bulletin of the Seismological Society of America. 2009 ; 99 (5): 2815-2824. [doi][doi]
Broadband records of earthquakes in deep gold mines and a comparison with results from SAFOD, California.
Bulletin of the Seismological Society of America. 2009 ; 99 (5): 2815-2824. [doi][doi]
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Frictional behavior of materials in the 3D SAFOD volume.
Geophysical Research Letters. 2009 ; 36 (5): [doi][doi]
Frictional behavior of materials in the 3D SAFOD volume.
Geophysical Research Letters. 2009 ; 36 (5): [doi][doi]
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Journal of Geophysical Research: Solid Earth. 2009 ; 114 (11): [doi][doi]
Constraints on the stress state of the San Andreas Fault with analysis based on core and cuttings from San Andreas Fault Observatory at Depth (SAFOD) drilling phases 1 and 2.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (11): [doi][doi]
Schleicher A
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Constraints on mineralization, fluid-rock interaction, and mass transfer during faulting at 2-3 km depth from the SAFOD drill hole.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (4): [doi][doi]
Constraints on mineralization, fluid-rock interaction, and mass transfer during faulting at 2-3 km depth from the SAFOD drill hole.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (4): [doi][doi]
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Arkosic rocks from the san andreas fault observatory at depth (SAFOD) borehole, central california: Implications for the structure and tectonics of the San Andrea fault zone.
Lithosphere. 2009 ; 1 (4): 206-226. [doi][doi]
Arkosic rocks from the san andreas fault observatory at depth (SAFOD) borehole, central california: Implications for the structure and tectonics of the San Andrea fault zone.
Lithosphere. 2009 ; 1 (4): 206-226. [doi][doi]
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Effect of thermal refraction on heat flow near the San Andreas Fault, Parkfield, California.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (6): [doi][doi]
Effect of thermal refraction on heat flow near the San Andreas Fault, Parkfield, California.
Journal of Geophysical Research: Solid Earth. 2009 ; 114 (6): [doi][doi]
2008
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San Andreas Fault damage at SAFOD viewed with fault-guided waves.
Geophysical Research Letters. 2008 ; 35 (8): [doi][doi]
San Andreas Fault damage at SAFOD viewed with fault-guided waves.
Geophysical Research Letters. 2008 ; 35 (8): [doi][doi]
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Wellbore-stability study for the SAFOD borehole through the San Andreas Fault.
SPE Drilling and Completion. 2008 ; 23 (4): 394-408. [doi][doi]
Wellbore-stability study for the SAFOD borehole through the San Andreas Fault.
SPE Drilling and Completion. 2008 ; 23 (4): 394-408. [doi][doi]
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Three-dimensional seismic attenuation structure around the SAFOD site, Parkfield, California.
Bulletin of the Seismological Society of America. 2008 ; 98 (6): 2934-2947. [doi][doi]
Three-dimensional seismic attenuation structure around the SAFOD site, Parkfield, California.
Bulletin of the Seismological Society of America. 2008 ; 98 (6): 2934-2947. [doi][doi]
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Nature. 2008 ; 454 (7201): 204-208. [doi][doi]
Preseismic velocity changes observed from active source monitoring at the Parkfield SAFOD drill site.
Nature. 2008 ; 454 (7201): 204-208. [doi][doi]
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Paleomagnetic reorientation of San Andreas Fault Observatory at Depth (SAFOD) core.
Geophysical Research Letters. 2008 ; 35 (2): [doi][doi]
Paleomagnetic reorientation of San Andreas Fault Observatory at Depth (SAFOD) core.
Geophysical Research Letters. 2008 ; 35 (2): [doi][doi]
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Origin and spatial distribution of gas at seismogenic depths of the San Andreas Fault from drill-mud gas analysis.
Applied Geochemistry. 2008 ; 23 (6): 1675-1690. [doi][doi]
Origin and spatial distribution of gas at seismogenic depths of the San Andreas Fault from drill-mud gas analysis.
Applied Geochemistry. 2008 ; 23 (6): 1675-1690. [doi][doi]
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Interferometry by deconvolution: Part 2 - Theory for elastic waves and application to drill-bit seismic imaging.
Geophysics. 2008 ; 73 (3): S129-S141. [doi][doi]
Interferometry by deconvolution: Part 2 - Theory for elastic waves and application to drill-bit seismic imaging.
Geophysics. 2008 ; 73 (3): S129-S141. [doi][doi]
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Eos. 2008 ; 89 (38): 349. [doi][doi]
Drill bit noise illuminates the san andreas fault.
Eos. 2008 ; 89 (38): 349. [doi][doi]
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A deep crustal fluid channel into the San Andreas Fault system near Parkfield, California.
Geophysical Journal International. 2008 ; 173 (2): 718-732. [doi][doi]
A deep crustal fluid channel into the San Andreas Fault system near Parkfield, California.
Geophysical Journal International. 2008 ; 173 (2): 718-732. [doi][doi]
2007
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San Andreas fault zone mineralogy, geochemistry, and physical properties from SAFOD cuttings and core.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 64-67. [doi][doi]
San Andreas fault zone mineralogy, geochemistry, and physical properties from SAFOD cuttings and core.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 64-67. [doi][doi]
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Using drill cutting separates to estimate the strength of narrow shear zones at SAFOD.
Geophysical Research Letters. 2007 ; 34 (11): [doi][doi]
Using drill cutting separates to estimate the strength of narrow shear zones at SAFOD.
Geophysical Research Letters. 2007 ; 34 (11): [doi][doi]
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Three-dimensional shear-wave splitting tomography in the Parkfield, California, region.
Geophysical Research Letters. 2007 ; 34 (24): [doi][doi]
Three-dimensional shear-wave splitting tomography in the Parkfield, California, region.
Geophysical Research Letters. 2007 ; 34 (24): [doi][doi]
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Talc-bearing serpentinite and the creeping section of the San Andreas fault.
Nature. 2007 ; 448 (7155): 795-797. [doi][doi]
Talc-bearing serpentinite and the creeping section of the San Andreas fault.
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Structure of the California Coast Ranges and San Andreas Fault at SAFOD from seismic waveform inversion and reflection imaging.
Journal of Geophysical Research: Solid Earth. 2007 ; 112 (6): [doi][doi]
Structure of the California Coast Ranges and San Andreas Fault at SAFOD from seismic waveform inversion and reflection imaging.
Journal of Geophysical Research: Solid Earth. 2007 ; 112 (6): [doi][doi]
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Scientific Drilling. 2007 ; (1 SUPPL. 1): 29-32. [doi][doi]
Structure and properties of the San Andreas fault in central California: Recent results from the SAFOD experiment.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 29-32. [doi][doi]
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Seismology inside the fault zone: Applications to fault-zone properties and rupture dynamics.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 84-87. [doi][doi]
Seismology inside the fault zone: Applications to fault-zone properties and rupture dynamics.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 84-87. [doi][doi]
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Joint IODP-ICDP workshop examines challenges of fault zone drilling.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 5-16. [doi][doi]
Joint IODP-ICDP workshop examines challenges of fault zone drilling.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 5-16. [doi][doi]
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Repeating earthquake finite source models: Strong asperities revealed on the San Andreas fault.
Geophysical Research Letters. 2007 ; 34 (23): [doi][doi]
Repeating earthquake finite source models: Strong asperities revealed on the San Andreas fault.
Geophysical Research Letters. 2007 ; 34 (23): [doi][doi]
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Putting it all together: Exhumation histories from a formal combination of heat flow and a suite of thermochronometers.
Journal of Geophysical Research: Solid Earth. 2007 ; 112 (8): [doi][doi]
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Journal of Geophysical Research: Solid Earth. 2007 ; 112 (8): [doi][doi]
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Mineralogic and textural analyses of drill cuttings from the San Andreas Fault Observatory at Depth (SAFOD) boreholes: Initial interpretations of fault zone composition and constraints on geologic models.
Geosphere. 2007 ; 3 (5): 299-318. [doi][doi]
Mineralogic and textural analyses of drill cuttings from the San Andreas Fault Observatory at Depth (SAFOD) boreholes: Initial interpretations of fault zone composition and constraints on geologic models.
Geosphere. 2007 ; 3 (5): 299-318. [doi][doi]
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Low-velocity damage zone on the san andreas fault at depth near SAFOD site at parkfield delineated by fault-zone trapped waves.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 73-77. [doi][doi]
Low-velocity damage zone on the san andreas fault at depth near SAFOD site at parkfield delineated by fault-zone trapped waves.
Scientific Drilling. 2007 ; (1 SUPPL. 1): 73-77. [doi][doi]
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Electron microscopy of clay minerals in mudrocks from the san andreas Fault observatory at depth (SAFOD).
Scientific Drilling. 2007 ; (1 SUPPL. 1): 68-70. [doi][doi]
Electron microscopy of clay minerals in mudrocks from the san andreas Fault observatory at depth (SAFOD).
Scientific Drilling. 2007 ; (1 SUPPL. 1): 68-70. [doi][doi]
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SEG Technical Program Expanded Abstracts. 2007 ; 26 (1): 2175-2179. [doi][doi]
Broadside interferometric and reverse-time imaging of the San Andreas Fault at depth.
SEG Technical Program Expanded Abstracts. 2007 ; 26 (1): 2175-2179. [doi][doi]
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A helium isotope cross-section study through the San Andreas Fault at seismogenic depths.
Geochemistry, Geophysics, Geosystems. 2007 ; 8 (1): [doi][doi]
A helium isotope cross-section study through the San Andreas Fault at seismogenic depths.
Geochemistry, Geophysics, Geosystems. 2007 ; 8 (1): [doi][doi]
2006
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Origin and significance of clay-coated fractures in mudrock fragments of the SAFOD borehole (Parkfield, California).
Geophysical Research Letters. 2006 ; 33 (16): [doi][doi]
Origin and significance of clay-coated fractures in mudrock fragments of the SAFOD borehole (Parkfield, California).
Geophysical Research Letters. 2006 ; 33 (16): [doi][doi]
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Structure of the San Andreas fault zone at SAFOD from a seismic refraction survey.
Geophysical Research Letters. 2006 ; 33 (7): [doi][doi]
Structure of the San Andreas fault zone at SAFOD from a seismic refraction survey.
Geophysical Research Letters. 2006 ; 33 (7): [doi][doi]
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Structure of the San Andreas Fault at SAFOD from P-wave tomography and fault-guided wave mapping.
Geophysical Research Letters. 2006 ; 33 (13): [doi][doi]
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Geophysical Research Letters. 2006 ; 33 (13): [doi][doi]
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Source scaling relationships of microearthquakes at Parkfield, CA, determined using the SAFOD pilot hole seismic array.
Geophysical Monograph Series. 2006 ; 170 81-90. [doi][doi]
Source scaling relationships of microearthquakes at Parkfield, CA, determined using the SAFOD pilot hole seismic array.
Geophysical Monograph Series. 2006 ; 170 81-90. [doi][doi]
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Seeking chemical clues to earthquakes.
Chemical and Engineering News. 2006 ; 84 (4): 39-41. [doi][doi]
Seeking chemical clues to earthquakes.
Chemical and Engineering News. 2006 ; 84 (4): 39-41. [doi][doi]
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Refining the image of the San Andreas Fault near Parkfield, California using a finite difference travel time computation technique.
Tectonophysics. 2006 ; 426 (1-2): 189-205. [doi][doi]
Refining the image of the San Andreas Fault near Parkfield, California using a finite difference travel time computation technique.
Tectonophysics. 2006 ; 426 (1-2): 189-205. [doi][doi]
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SAFOD Penetrates the San Andreas Fault.
Scientific Drilling. 2006 ; 2006 (2): 32-33. [doi][doi]
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Scientific Drilling. 2006 ; 2006 (2): 32-33. [doi][doi]
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Drillbit seismic images fractures of San Andreas fault system.
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The SAFOD Pilot Hole seismic array: Wave propagation effects as a function of sensor depth and source location.
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Phyllosilicate mineral assemblages of the SAFOD Pilot Hole and comparison with an exhumed segment of the San Andreas Fault System.
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Geophysical Research Letters. 2004 ; 31 (12): L12S06 1-5. [doi][doi]
Low-velocity damaged structure of the San Andreas Fault at Parkfield from fault zone trapped waves.
Geophysical Research Letters. 2004 ; 31 (12): L12S06 1-5. [doi][doi]
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Geophysical Research Letters. 2004 ; 31 (12): L12S02 1-4. [doi][doi]
Fine-scale structure of the San Andreas fault zone and location of the SAFOD target earthquakes.
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Geophysical Research Letters. 2004 ; 31 (12): L12S01 1-4. [doi][doi]
Introduction to special section: Preparing for the San Andreas Fault Observatory at Depth.
Geophysical Research Letters. 2004 ; 31 (12): L12S01 1-4. [doi][doi]
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Detailed kinematics, structure and recurrence of micro-seismicity in the SAFOD target region.
Geophysical Research Letters. 2004 ; 31 (12): L12S08 1-4. [doi][doi]
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Geophysical Research Letters. 2004 ; 31 (12): L12S08 1-4. [doi][doi]
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A mechanical model of the San Andreas fault and SAFOD Pilot Hole stress measurements.
Geophysical Research Letters. 2004 ; 31 (15): L15S13 1-5. [doi][doi]
A mechanical model of the San Andreas fault and SAFOD Pilot Hole stress measurements.
Geophysical Research Letters. 2004 ; 31 (15): L15S13 1-5. [doi][doi]
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High-rate real-time GPS network at Parkfield: Utility for detecting fault slip and seismic displacements.
Geophysical Research Letters. 2004 ; 31 (15): L15S20 1-4. [doi][doi]
High-rate real-time GPS network at Parkfield: Utility for detecting fault slip and seismic displacements.
Geophysical Research Letters. 2004 ; 31 (15): L15S20 1-4. [doi][doi]
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Crustal structure across the San Andreas Fault at the SAFOD site from potential field and geologic studies.
Geophysical Research Letters. 2004 ; 31 (12): L12S03 1-4. [doi][doi]
Crustal structure across the San Andreas Fault at the SAFOD site from potential field and geologic studies.
Geophysical Research Letters. 2004 ; 31 (12): L12S03 1-4. [doi][doi]
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Constraining the exhumation and burial history of the SAFOD pilot hole with apatite fission track and (U-Th)/He thermochronometry.
Geophysical Research Letters. 2004 ; 31 (15): L15S16 1-4. [doi][doi]
Constraining the exhumation and burial history of the SAFOD pilot hole with apatite fission track and (U-Th)/He thermochronometry.
Geophysical Research Letters. 2004 ; 31 (15): L15S16 1-4. [doi][doi]
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Determining SAFOD area microearthquake locations solely with the Pilot Hole seismic array data.
Geophysical Research Letters. 2004 ; 31 (12): L12S10 1-5. [doi][doi]
Determining SAFOD area microearthquake locations solely with the Pilot Hole seismic array data.
Geophysical Research Letters. 2004 ; 31 (12): L12S10 1-5. [doi][doi]
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Earthquake source parameters determined by the SAFOD Pilot Hole seismic array.
Geophysical Research Letters. 2004 ; 31 (12): L12S09 1-5. [doi][doi]
Earthquake source parameters determined by the SAFOD Pilot Hole seismic array.
Geophysical Research Letters. 2004 ; 31 (12): L12S09 1-5. [doi][doi]
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Electrical resistivity structure at the SAFOD site from magnetotelluric exploration.
Geophysical Research Letters. 2004 ; 31 (12): L12S05 1-4. [doi][doi]
Electrical resistivity structure at the SAFOD site from magnetotelluric exploration.
Geophysical Research Letters. 2004 ; 31 (12): L12S05 1-4. [doi][doi]
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Heat flow in the SAFOD pilot hole and implications for the strength of the San Andreas Fault.
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2003
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A Look Inside the San Andreas fault at Parkfield Through Vertical Seismic Profiling.
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A Look Inside the San Andreas fault at Parkfield Through Vertical Seismic Profiling.
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Earthquake locations and three-dimentional fault zone structure along the creeping section of the San Andreas fault near Parkfield, CA: Preparing for SAFOD.
Geophysical Research Letters. 2003 ; 30 (3): 12-1.
Earthquake locations and three-dimentional fault zone structure along the creeping section of the San Andreas fault near Parkfield, CA: Preparing for SAFOD.
Geophysical Research Letters. 2003 ; 30 (3): 12-1.
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Finding fault.
Engineer. 2003 ; 292 (7638): 21-24.
Finding fault.
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Seismic tomography of the lithosphere with body waves.
Pure and Applied Geophysics. 2003 ; 160 (3-4): 717-737. [doi][doi]
2002
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High-resolution seismic velocities and shallow structure of the San Andreas fault zone at Middle Mountain, Parkfield, California.
Bulletin of the Seismological Society of America. 2002 ; 92 (6): 2493-2503. [doi][doi]
High-resolution seismic velocities and shallow structure of the San Andreas fault zone at Middle Mountain, Parkfield, California.
Bulletin of the Seismological Society of America. 2002 ; 92 (6): 2493-2503. [doi][doi]
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Researchers propose earthquake observatory inside San Andreas fault.
Civil Engineering. 2002 ; 72 (7): 34-35.
Researchers propose earthquake observatory inside San Andreas fault.
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2000
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The Parkfield, California earthquake experiment: An update in 2000.
Current Science. 2000 ; 79 (9): 1226-1236.
The Parkfield, California earthquake experiment: An update in 2000.
Current Science. 2000 ; 79 (9): 1226-1236.