Journal: |
Journal of Geophysical Research 2018 No.9
clicks:101 |
Title:
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Author:
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J. R. Leeman1 , C. Marone1 , and D. M. Saffer |
Adress: |
1 Department of Geosciences and Center for Geomechanics, Geofluids, and Geohazards, The Pennsylvania State University, University Park, PA, USA |
Abstract:
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Tectonic faults slip in a wide range of modes that span from slow slip events to dynamic rupture.
A growing body of observations document this spectrum of failure modes in many geologic settings.
However, the physical mechanisms that dictate slow slip are not understood. Here we investigate the
mechanics of slow slip using carefully controlled laboratory experiments that demonstrate a complete
spectrum of slip modes: Laboratory stick-slip event durations span from seconds to milliseconds,
representing the equivalent of failure events that span the range from slow to dynamic earthquakes. The
rheological critical stiffness kc is the primary control on the mode of slip, but higher-order effects including
velocity dependence of the frictional rate parameter and critical slip distance also play an important role. We
also find that quasi-dynamic instability results from negligible stress drop near the stability boundary, in
tandem with negative feedback during slip acceleration rooted in the rate dependence of kc. Our work shows
that a broad spectrum of slip behaviors can arise from a common frictional mechanism modulated by fault
zone rheology and elastic properties. |
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