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Frictional Mechanics of Slow Earthquakes
J. R. Leeman
, C. Marone
,
D. M. Saffer
Geosciences
Research output
:
Contribution to journal
›
Article
›
peer-review
88
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Scopus citations
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Dive into the research topics of 'Frictional Mechanics of Slow Earthquakes'. Together they form a unique fingerprint.
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Keyphrases
Slow Earthquake
100%
Slow Slip
100%
Controlled Experiment
50%
Elastic Properties
50%
Physical Mechanism
50%
Earthquake
50%
Dynamic Instability
50%
Rate Parameters
50%
In Tandem
50%
Failure Mode
50%
Stick-slip Event
50%
Stress Drop
50%
Dynamic Rupture
50%
Tectonic Fault
50%
Rate Dependence
50%
Fault Slip
50%
Fault Zone Rheology
50%
Higher-order Effects
50%
Primary Control
50%
Negative Feedback
50%
Geologic Setting
50%
Velocity Dependence
50%
Failure Event
50%
Rheological Properties
50%
Critical Slip Distance
50%
Quasi-dynamic
50%
Slip Behavior
50%
Slow Slip Events
50%
Stability Boundary
50%
Event Duration
50%
Critical Stiffness
50%
Frictional Mechanisms
50%
Slip Mode
50%
Engineering
Millisecond
100%
Failure Mode
100%
Rheology
100%
Rate Dependence
100%
Failure Event
100%
Dynamic Instability
100%
Primary Control
100%
Stability Boundary
100%
Stick-Slip
100%
Earth and Planetary Sciences
Laboratory Experiment
100%
Tectonics
100%
Fault Zone
100%
Stick-Slip
100%
Fault Slip
100%
Negative Feedback
100%
Failure Mode
100%
Rheology
100%