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Earthquakes: Radiated Energy and the Physics of Faulting
On scaling of fracture energy and stress drop in dynamic rupture models: Consequences for near-source ground-motions
edited_book
Author(s):
P. M. Mai
,
P. Somerville
,
A. Pitarka
,
L. Dalguer
,
S. Song
,
G. Beroza
,
H. Miyake
,
K. Irikura
Publication date:
2006
Publisher:
American Geophysical Union
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The Dynamic Brain
Author and book information
Book Chapter
Publication date:
2006
Pages
: 283-293
DOI:
10.1029/170GM28
SO-VID:
e8593221-b2dc-4b43-a045-da85802a0a02
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Book chapters
pp. 3
Energy partitioning during an earthquake
pp. 25
The scaling of seismic energy with moment: Simple models compared with observations
pp. 81
Source scaling relationships of microearthquakes at Parkfield, CA, determined using the SAFOD Pilot Hole Seismic Array
pp. 91
Effects of methods of attenuation correction on source parameter determination
pp. 99
Inferring earthquake source properties from laboratory observations and the scope of lab contributions to source physics
pp. 121
Relating high-velocity rock-friction experiments to coseismic slip in the presence of melts
pp. 153
The habitat of fault-generated pseudotachylyte: Presence vs. absence of friction-melt
pp. 193
How thick is a fault? Fault displacement-thickness scaling revisited
pp. 223
Seismic radiation from simple models of earthquakes
pp. 237
On the mechanical work absorbed on faults during earthquake ruptures
pp. 255
Properties of dynamic earthquake ruptures with heterogeneous stress drop
pp. 263
The effects of flash-weakening and damage on the evolution of fault strength and temperature
pp. 283
On scaling of fracture energy and stress drop in dynamic rupture models: Consequences for near-source ground-motions
pp. 313
What do faults feel? Observational constraints on the stresses acting on seismogenic faults
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