3-D Modeling of Rupture Sequences of Shallow Subduction Earthquakes

About This Presentation

Title:

3-D Modeling of Rupture Sequences of Shallow Subduction Earthquakes

Description:

Aseismic transients observed from simulations. Geometry and modeling setup ... Aseismic transients: Another example: Slip rate: 10~103 Vpl ; Initiate from the ' ... – PowerPoint PPT presentation

Number of Views:19

Avg rating:3.0/5.0

Slides: 13

Provided by: ych88

Category:

more less

Transcript and Presenter's Notes

Title: 3-D Modeling of Rupture Sequences of Shallow Subduction Earthquakes

1
3-D Modeling of Rupture Sequences of Shallow
Subduction Earthquakes

Yajing Liu1, James R. Rice1,2
1 Department of Earth and Planetary Sciences,
Harvard University
2 Division of Engineering and Applied Sciences,
Harvard University
AGU Fall 2003, T42C-07

2
We look at

Complexities of modeled large shallow subduction
earthquake populations
Detailed slip behaviors during modeled great
earthquakes
Aseismic transients observed from simulations.

3
Geometry and modeling setup
4
Rate- and state-dependent friction law(including
a single state variable, Dieterich, 1978, 1981
Ruina, 1983)
Dieterich-Ruina friction (slowness law)

Stability determining parameters
velocity dependence of steady state friction
nucleation size

(actual size 3 4 h)
5
Depth distribution of friction parameters a and
(a ? b)
Introduce along-strike non-uniformities
6
Overburden total normal stress and pore pressure

Total normal stress
Pore pressure
Effective normal stress(at greater
depth)

7
Depth-averaged (over seismogenic zone) slip
versus x (along strike)
Lines plotted every 5 years
Event A
Starting time to compare results with two grid
resolutions
8
Comparison of results from two grid resolutions
9
Slip and slip velocity evolution of Event A
10
Aseismic transients
11
Another example

Slip rate 10103 Vpl
Initiate from the gap zones
Migrate along strike near the downdip end of the
seismogenic zone at an average speed 10-5 to
10-6 of the rupture propagation speed during
great events
Not always rupture to the surface.

12
Conclusions

Small along-strike variations in material
frictional properties (or initial conditions)
could perturb the system into a non-uniform slip
mode, with large events occurring at various
locations, different recurrence intervals, and
multiple magnitudes.
With current h, and grid resolution, we observe
events with aseismic slip rates (10103 Vpl),
migrating along strike near the downdip end of
the seismogenic zone.