Pages that link to "Item:Q46573"
From geokb
The following pages link to Ruth Harris (Q46573):
Displayed 50 items.
- Mineral resource assessment of Puerto Rico: Field trip, June 25, 1992 (Q54953) (← links)
- Earthquake outlook for the San Francisco Bay region 2014–2043 (Q58722) (← links)
- Thermodynamic method for generating random stress distributions on an earthquake fault (Q61556) (← links)
- Chapter B. The Loma Prieta, California, Earthquake of October 17, 1989 - Forecasts (Q77586) (← links)
- INVERSE, a Fortran program to solve for two-dimensional slip on a vertical strike slip fault by inversion of line-length data (Q94885) (← links)
- The 1999 Mw 7.1 Hector Mine, California, earthquake: A test of the stress shadow hypothesis? (Q143894) (← links)
- Final report to SCEC on the October 27, 2020 SCEC workshop ‘dynamic rupture TAG – The 2020 ingredients workshop – Rock properties (SCEC rroject 20188)’ (Q146244) (← links)
- Evasion of added isotopic mercury from a northern temperate lake (Q146967) (← links)
- Dynamic rupture models of earthquakes on the Bartlett Springs Fault, Northern California (Q147756) (← links)
- Kinematic and dynamic rupture models of the November 3, 2002 Mw7.9 Denali, Alaska, earthquake (Q148550) (← links)
- Earthquakes in the shadows: Why aftershocks occur at surprising locations (Q150697) (← links)
- Changes in static stress on southern California faults after the 1992 Landers earthquake (Q151834) (← links)
- Solid earth: earthquakes (Q153437) (← links)
- The 2002 Denali fault earthquake, Alaska: A large magnitude, slip-partitioned event (Q154133) (← links)
- Strong ground motions generated by earthquakes on creeping faults (Q155789) (← links)
- Large earthquakes and creeping faults (Q156100) (← links)
- Suppression of large earthquakes by stress shadows: A comparison of Coulomb and rate-and-state failure (Q231632) (← links)
- Earthquake triggering by seismic waves following the landers and hector mine earthquakes (Q235309) (← links)
- Metrics for comparing dynamic earthquake rupture simulations (Q236804) (← links)
- The 1999 Izmit, Turkey, earthquake: A 3D dynamic stress transfer model of intraearthquake triggering (Q237507) (← links)
- Reactivity and mobility of new and old mercury deposition in a boreal forest ecosystem during the first year of the METAALICUS study (Q237588) (← links)
- Introduction to the special issue on the 2004 Parkfield earthquake and the Parkfield earthquake prediction experiment (Q246552) (← links)
- Numerical simulations of large earthquakes: Dynamic rupture propagation on heterogeneous faults (Q248934) (← links)
- Inverse kinematic and forward dynamic models of the 2002 Denali fault earthquake, Alaska (Q249082) (← links)
- Implications for prediction and hazard assessment from the 2004 Parkfield earthquake (Q250208) (← links)
- Verifying a computational method for predicting extreme ground motion (Q251175) (← links)
- Material contrast does not predict earthquake rupture propagation direction (Q256285) (← links)
- Imaging the Juan de Fuca plate beneath southern Oregon using teleseismic P wave residuals (Q260703) (← links)
- Reply to comment by Y. Ben-Zion on “Material contrast does not predict earthquake rupture propagation direction” (Q266700) (← links)
- Dynamic 3D simulations of earthquakes on en echelon faults (Q270483) (← links)
- Slip deficit on the San Andreas fault at Parkfield, California, as revealed by inversion of geodetic data (Q270671) (← links)
- Influence of static stress changes on earthquake locations in southern California (Q270854) (← links)
- Final report to SCEC on the January 8, 2020 SCEC workshop 'Dynamic Rupture TAG Ingredients Workshop – Fault Friction (SCEC Project 19121)' (Q272655) (← links)
- Reply to comment by Y. Ben-Zion on “The wrinkle-like slip pulse is not important in earthquake dynamics” (Q272977) (← links)
- January 12, 2023 SCEC workshop, Dynamic Rupture TAG – Investigating new ideas in earthquake source mechanics(SCEC Project 22157) (Q275805) (← links)
- Introduction and background (Q277452) (← links)
- 60 years and beyond of Reviews of Geophysics (Q278392) (← links)
- Detection of a locked zone at depth on the Parkfield, California, segment of the San Andreas fault (Q278884) (← links)
- Rooted Brooks Range ophiolite: Implications for Cordilleran terranes: Comment and Reply (Q278956) (← links)
- In the shadow of 1857-the effect of the great Ft. Tejon earthquake on subsequent earthquakes in southern California (Q282533) (← links)
- Monitoring and evaluating trends in sediment and water indicators (Q282841) (← links)
- Stress triggers, stress shadows, and seismic hazard (Q284195) (← links)
- Working with dynamic earthquake rupture models: A practical guide (Q284700) (← links)
- The community code verification exercise for simulating sequences of earthquakes and aseismic slip (SEAS) (Q286965) (← links)
- Introduction to special section: Stress triggers, stress shadows, and implications for seismic hazard (Q287190) (← links)
- A geology and geodesy based model of dynamic earthquake rupture on the Rodgers Creek‐Hayward‐Calaveras Fault System, California (Q287275) (← links)
- Hazardous cracks running through Arizona (Q287555) (← links)
- The wrinkle-like slip pulse is not important in earthquake dynamics (Q287608) (← links)
- A suite of exercises for verifying dynamic earthquake rupture codes (Q289698) (← links)
- Nonlinear radiation damping: A new method for dissipating energy in dynamic earthquake rupture simulations (Q291058) (← links)