Jeanne Hardebeck
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American seismologist
Jeanne Hardebeck's AcademicInfluence.com Rankings
Jeanne Hardebeckearth-sciences Degrees
Earth Sciences
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#3416
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Physical Geography
#166
World Rank
#194
Historical Rank
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Earth Sciences
Jeanne Hardebeck's Degrees
- Masters Geophysics Stanford University
- Bachelors Geophysics Stanford University
Why Is Jeanne Hardebeck Influential?
(Suggest an Edit or Addition)According to Wikipedia, Jeanne L. Hardebeck is an American research geophysicist studying earthquakes and seismology who has worked at the United States Geological Survey since 2004. Hardebeck studies the state of stress and the strength of faults.
Jeanne Hardebeck's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- A New Method for Determining First-Motion Focal Mechanisms (2002) (441)
- The tectonic history of the Tasman Sea: A puzzle with 13 pieces (1998) (437)
- Implications for prediction and hazard assessment from the 2004 Parkfield earthquake (2005) (353)
- The static stress change triggering model: Constraints from two southern California aftershock sequences (1998) (308)
- Crustal stress field in southern California and its implications for fault mechanics (2001) (287)
- Damped regional‐scale stress inversions: Methodology and examples for southern California and the Coalinga aftershock sequence (2006) (274)
- Using S/P Amplitude Ratios to Constrain the Focal Mechanisms of Small Earthquakes (2003) (249)
- Three-Dimensional Compressional Wavespeed Model, Earthquake Relocations, and Focal Mechanisms for the Parkfield, California, Region (2006) (215)
- Community online resource for statistical seismicity analysis (2011) (190)
- Precise tremor source locations and amplitude variations along the lower‐crustal central San Andreas Fault (2010) (149)
- Constraints on fault slip rates of the southern California plate boundary from GPS velocity and stress inversions (2005) (144)
- Preliminary Report on the 28 September 2004, M 6.0 Parkfield, California Earthquake (2005) (134)
- Stress orientations at intermediate angles to the San Andreas Fault, California (2004) (120)
- Coseismic and postseismic stress rotations due to great subduction zone earthquakes (2012) (106)
- Improved tests reveal that the accelerating moment release hypothesis is statistically insignificant (2008) (105)
- Stress Orientations Obtained from Earthquake Focal Mechanisms: What Are Appropriate Uncertainty Estimates? (2001) (95)
- Preliminary Report on the 16 October 1999 M 7.1 Hector Mine, California, Earthquake (2000) (90)
- A Spatiotemporal Clustering Model for the Third Uniform California Earthquake Rupture Forecast (UCERF3-ETAS): Toward an Operational Earthquake Forecast (2017) (78)
- Earthquake Stress Drops and Inferred Fault Strength on the Hayward Fault (2008) (76)
- Analysis of similar event clusters in aftershocks of the 1994 Northridge, California, earthquake (2003) (70)
- Temporal Stress Changes Caused by Earthquakes: A Review (2018) (69)
- Preliminary Report on the 22 December 2003, M 6.5 San Simeon, California Earthquake (2004) (69)
- The Mw 6.0 24 August 2014 South Napa Earthquake (2015) (68)
- A Synoptic View of the Third Uniform California Earthquake Rupture Forecast (UCERF3) (2017) (67)
- A California Statewide Three-Dimensional Seismic Velocity Model from Both Absolute and Differential Times (2010) (63)
- Three Ingredients for Improved Global Aftershock Forecasts: Tectonic Region, Time‐Dependent Catalog Incompleteness, and Intersequence Variability (2015) (56)
- Stress triggering and earthquake probability estimates (2004) (53)
- Seismicity Rate Changes along the Central California Coast due to Stress Changes from the 2003 M 6.5 San Simeon and 2004 M 6.0 Parkfield Earthquakes (2009) (50)
- Stress orientations in subduction zones and the strength of subduction megathrust faults (2015) (50)
- Homogeneity of Small-Scale Earthquake Faulting, Stress, and Fault Strength (2006) (48)
- Seismicity around Parkfield correlates with static shear stress changes following the 2003 Mw6.5 San Simeon earthquake (2013) (46)
- Seismic Velocity Structure and Seismotectonics of the Eastern San Francisco Bay Region, California (2007) (44)
- Fault Parameter Constraints Using Relocated Earthquakes: A Validation of First-Motion Focal-Mechanism Data (2006) (42)
- Complex Faulting Associated with the 22 December 2003 Mw 6.5 San Simeon, California, Earthquake, Aftershocks, and Postseismic Surface Deformation (2008) (39)
- A new strategy for earthquake focal mechanisms using waveform‐correlation‐derived relative polarities and cluster analysis: Application to the 2014 Long Valley Caldera earthquake swarm (2016) (39)
- Size distribution of Parkfield's microearthquakes reflects changes in surface creep rate (2013) (33)
- Seismotectonics and Fault Structure of the California Central Coast (2010) (29)
- Earthquake recurrence models fail when earthquakes fail to reset the stress field (2012) (28)
- Aftershocks are well aligned with the background stress field, contradicting the hypothesis of highly heterogeneous crustal stress (2010) (27)
- Eustasy as a test of a Cretaceous superplume hypothesis (1996) (25)
- Static stress drop in the 1994 Northridge, California, aftershock sequence (1997) (22)
- Creeping subduction zones are weaker than locked subduction zones (2017) (21)
- Statistical Seismology and Communication of the USGS Operational Aftershock Forecasts for the 30 November 2018 Mw 7.1 Anchorage, Alaska, Earthquake (2019) (18)
- Does Earthquake Stress Drop Increase With Depth in the Crust? (2021) (16)
- Updated California Aftershock Parameters (2018) (16)
- The impact of static stress change, dynamic stress change, and the background stress on aftershock focal mechanisms (2014) (16)
- A Stress-Similarity Triggering Model for Aftershocks of the Mw 6.4 and 7.1 Ridgecrest Earthquakes (2020) (15)
- Illuminating Faulting Complexity of the 2017 Yellowstone Maple Creek Earthquake Swarm (2019) (15)
- Testing for the ‘predictability’ of dynamically triggered earthquakes in The Geysers geothermal field (2018) (13)
- Stress rotation across the Cascadia megathrust requires a weak subduction plate boundary at seismogenic depths (2017) (13)
- Aftershocks of the 2014 South Napa, California, Earthquake: Complex Faulting on Secondary Faults (2016) (12)
- Geometry and Earthquake Potential of the Shoreline Fault, Central California (2013) (12)
- Potential duration of aftershocks of the 2020 southwestern Puerto Rico earthquake (2020) (11)
- Appendix S — Constraining Epidemic Type Aftershock Sequence ( ETAS ) Parameters from the Uniform California Earthquake Rupture Forecast , Version 3 Catalog and Validating the ETAS Model for Magnitude 6 . 5 or Greater Earthquakes (2013) (10)
- Are the Stress Drops of Small Earthquakes Good Predictors of the Stress Drops of Moderate‐to‐Large Earthquakes? (2020) (9)
- Toward a Time‐Dependent Probabilistic Seismic Hazard Analysis for Alaska (2013) (9)
- Comment on “Models of stochastic, spatially varying stress in the crust compatible with focal‐mechanism data, and how stress inversions can be biased toward the stress rate” by Deborah Elaine Smith and Thomas H. Heaton (2015) (8)
- Imaging Shear Strength Along Subduction Faults (2017) (8)
- Spatial Clustering of Aftershocks Impacts the Performance of Physics‐Based Earthquake Forecasting Models (2021) (7)
- Theme IV - Understanding Seismicity Catalogs and their Problems Earthquake Location Accuracy (2010) (7)
- The spatial distribution of earthquake stress rotations following large subduction zone earthquakes (2017) (7)
- Fluid‐driven seismicity response of the Rinconada fault near Paso Robles, California, to the 2003 M 6.5 San Simeon earthquake (2012) (6)
- Aftershock Forecasting: Recent Developments and Lessons from the 2016 M5.8 Pawnee, Oklahoma, Earthquake (2016) (4)
- Localized fluid discharge by tensile cracking during the post-seismic period in subduction zones (2020) (3)
- Prospective and Retrospective Evaluation of the U.S. Geological Survey Public Aftershock Forecast for the 2019–2021 Southwest Puerto Rico Earthquake and Aftershocks (2022) (3)
- Fracture‐Mesh Faulting in the Swarm‐Like 2020 Maacama Sequence Revealed by High‐Precision Earthquake Detection, Location, and Focal Mechanisms (2022) (2)
- Detecting missing earthquakes on the Parkfield section of the San Andreas Fault following the 2003 Mw6.5 San Simeon earthquake (2010) (2)
- Appendix S : Constraining ETAS Parameters from the UCERF 3 Catalog and Validating the ETAS Model for M ≥ 6 . 5 Earthquakes (2012) (2)
- Using Machine Learning Techniques with Incomplete Polarity Datasets to Improve Earthquake Focal Mechanism Determination (2022) (2)
- A Unified Model of Crustal Stress Heterogeneity From Borehole Breakouts and Earthquake Focal Mechanisms (2021) (2)
- Background Seismicity Rate from Inter-Event Time Statistics: Spatial Patterns Appear Stationary Through Time (2007) (1)
- Systematic search for missing earthquakes in Central California around the 2003 Mw6.5 San Simeon and the 2004 Mw6.0 Parkfield earthquakes (2012) (1)
- Precursory Accelerating Moment Release: An Artifact of Data-Selection? (2006) (1)
- Pitfalls of Estimating Background Seismicity Rates from Interevent-time Statistics (2007) (1)
- International Aftershock Forecasting: Lessons from the Gorkha Earthquake (2015) (1)
- Young solid earth researchers of the world unite (2004) (1)
- Faulting, damage, and intensity in the Canyondam earthquake of May 23, 2013 (2016) (1)
- Earthquakes in the Shadows: Why Aftershocks Occur at Surprising Locations (2022) (1)
- Correlations Between Stress Orientation and Seismic Coupling in Subduction Zones (2017) (0)
- Can Tectonic Loading be Observed as Interseismic Stress Rotation (2016) (0)
- Physical Properties of the Crust Influence Aftershock Locations (2022) (0)
- Fluid-Faulting Interactions Examined Though Massive Waveform-Based Analyses of Earthquake Swarms in Volcanic and Tectonic Settings: Mammoth Mountain, Long Valley, Lassen, and Fillmore, California Swarms, 2014-2015 (2015) (0)
- Constraints on the mechanics of the Southern San Andreas fault system from GPS velocity and stress (2003) (0)
- New Frontiers in Characterization of Sub-Catalog Microseismicity: Utilizing Inter-Event Waveform Cross Correlation for Estimating Precise Locations, Magnitudes, and Focal Mechanisms of Tiny Earthquakes (2017) (0)
- TENSION VEINS AS EVIDENCES OF LOCALIZED FLUID DISCHARGE IN SUBDUCTION ZONES: AN EXAMPLE OF NOBEOKA THRUST, SOUTHWESTERN JAPAN (2017) (0)
- Letters Imaging Shear Strength Along Subduction Faults (2018) (0)
- Development of a State-Wide 3-D Seismic Tomography Velocity Model for California (2007) (0)
- A new strategy for earthquake focal mechanisms using waveform-correlation-derived relative polarities and cluster analysis: Application to a fluid-driven earthquake swarm (2016) (0)
- Estimation of pore fluid overpressures for tensile cracking at depth of shallow slow earthquakes (2018) (0)
- Dynamic Aftershock Triggering Correlated with Cyclic Loading in the Slip Direction (2014) (0)
- AFTERSHOCK FORECASTS FOLLOWING THE M7.0 ANCHORAGE, ALASKA EARTHQUAKE (2019) (0)
- Driving Processes of Earthquake Swarms: Evidence from High Resolution Seismicity (2017) (0)
- Are the Stress Drops of Small Earthquakes Good Predictors of the Stress Drops of Larger Earthquakes (2017) (0)
- The M6.0 24 August 2014 South Napa Earthquake II Posters (2014) (0)
- Speak Simply When Warning About After Shocks (2016) (0)
- Aftershock Focal Mechanisms Imply that Static Stress Changes Contribute to Earthquake Triggering (2011) (0)
- Using Corrected and Imputed Polarity Measurements to Improve Focal Mechanisms in a Regional Earthquake Catalog Near the Mt. Lewis Fault Zone, California (2023) (0)
- Building the Community Online Resource for Statistical Seismicity Analysis (CORSSA) (2010) (0)
- Stop the Presses: Aftershock Forecasts in the Media from Bombay Beach to Anchorage to Ridgecrest (2019) (0)
- Mainshock Static Stress Changes and Background Stress Jointly Influence the Distribution of Aftershock Focal Mechanisms (2013) (0)
- Aftershock Forecasts Following the M6.4 and M7.1 Ridgecrest, California, Earthquakes of July 2019 (2019) (0)
- Damage and Shaking Intensity in the M5.7 Canyondam Earthquake (2013) (0)
- 2019 M7.1 Ridgecrest earthquake slip distribution controlled by fault geometry inherited from Independence dike swarm (2023) (0)
- Aftershocks of the 2014 M6 South Napa Earthquake: Detection, Location, and Focal Mechanisms (2014) (0)
- Clement, Hardebeck, and Nimmo Receive 2007 James B. Macelwane Medals (2008) (0)
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