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Laboratory Earthquakes from the Cornell 3 m apparatus
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This data was recorded from a suite of laboratory experiments described in an ongoing set of publications starting with Ke, et al., 2018, Geophysical Research Letters. https://doi.org/10.1029/2018GL080492.
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Data from: Creep fronts and complexity in laboratory earthquake sequences illuminate delayed earthquake triggering
(2022-09-14)These data are from Laboratory Earthquake Experiments from the Cornell 0.76 m apparatus in support of the following research: Earthquakes occur in clusters or sequences that arise from complex triggering mechanisms, but ... -
Data from: The Role of Background Stress State in Fluid-Induced Aseismic Slip and Dynamic Rupture on a 3-meter Laboratory Fault
(2022-05)These files contain data supporting all results reported in: "The Role of Background Stress State in Fluid-Induced Aseismic Slip and Dynamic Rupture on a 3-meter Laboratory Fault" by Cebry et al., where we found: Fluid ... -
Data from: Seismic swarms produced by rapid fluid injection into a low permeability laboratory fault
(2020-12-18)These data are from Laboratory Earthquake Experiments from the Cornell 0.76 m apparatus in support of the following research: Fluid injection, from activities such wastewater disposal, hydraulic stimulation, or enhanced ... -
Data From: The Earthquake Arrest Zone
(2020-12-16)These data are from Laboratory Earthquake Experiments from the Cornell 3 m apparatus in support of the following research: Loading a 3-meter granite slab containing a saw-cut simulated fault, we generated slip events that ... -
Data from: Groove Generation and Coalescence on a Large-Scale Laboratory Fault
(2020)These data are from Laboratory Earthquake Experiments from the Cornell 3 m apparatus in support of the following research: Faults are the products of wear processes acting at a range of scales from nanometers to kilometers. ... -
Data from: Rupture Termination in Laboratory-Generated Earthquakes
(2019)These data are from Laboratory Earthquake Experiments from the Cornell 3 m apparatus in support of the following research: Loading a 3-meter granite slab containing a saw-cut simulated fault, we generated rupture events ... -
Data from: Earthquake Initiation from Laboratory Observations and Implications for Foreshocks
(2019-12)These data are from Laboratory Earthquake Experiments from the Cornell 3 m apparatus in support of the following research: This paper reviews laboratory observations of earthquake initiation and describes new experiments ... -
Data from: Contained Laboratory Earthquakes Ranging From Slow To Fast
(2019)Loading a 3-meter granite slab containing a saw-cut simulated fault, we generated slip events that spontaneously nucleate, propagate, and arrest before reaching the ends of the sample. This work shows that slow (0.07 mm/s ...
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