STRIKE SLIP SPLAY USING DYNAMIC RUPTURE MODELS
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1 STRIKE SLIP SPLAY USING DYNAMIC RUPTURE MODELS Julian Lozos (PEER, UC Berkeley) SWUS GMC Workshop #2, Berkeley, CA, 24 October 2013
2 Outline Issues in the dynamics of fault branches. Advantages and disadvantages of dynamic rupture modeling. Branch fault benchmark. Planned parameter study.
3 General Questions Can rupture propagate through all three limbs of a branch fault system? What are preferred rupture patterns, and which parameters control them? If the splay ruptures, does it behave as continuous rupture from the main fault, or is it a re-nucleation? How does the ground motion compare to that from rupture on a planar fault? How does the ground motion between the main fault and the splay compare to ground motion to the outside?
4 Releasing vs. Restraining Branch Branch point is dynamically clamped or unclamped, depending on slip direction. Is the clamping effect the same if rupture comes from the interior or exterior of the branch? In constant traction, flipping branch is equivalent to reversing slip direction.
5 Nucleation Point Affects dynamic stress changes, and therefore possible rupture geometries. Limits effects of directivity. Plan: one nucleation at end of each limb of the fault, one at branch point.
6 Branch Angle Branch angle influences whether or not rupture propagates on the splay, and, if so, how far. Kame et al., 2003 Lozos et al., 2011
7 Effect of Regional Stress Field Uniform regional stress field resolves differently on branch than on main fault. Dynamically unfavorable branch may be favorable in the regional stress field, and vice versa. Switching branch side is not equivalent to switching slip direction.
8 Velocity Structure Has a controlling effect on ground motions. Can affect extent of rupture propagation. Will test homogeneous rock, northern California example, central coast example, and southern California example. 1D vs 3D? Lozos, 2013
9 Advantages and Disadvantages Full physics of rupture. Rupture behavior and extent not pre-determined. Provides picture of source evolution. Allows complex initial conditions. Computationally intensive. Maximum achievable frequency content is lower than in kinematic models or than calculated by GMPEs. Limited primarily by computational constraints.
10 Barall, March 2013
11 Barall, March 2013
12 Results for Benchmarks TPV24 and TPV25 (rupture-front contour plots) TPV24 Releasing Branch Main Fault TPV25 Restraining Branch Branch Fault TPV24 Main Fault Branch Fault TPV25 Harris, March 2013
13 Results for Benchmarks TPV24 and TPV25 (horizontal velocity vs. time) TPV24 Releasing Branch TPV25 Restraining Branch 10 seconds 10 seconds 0.2 m/s 0.2 m/s Off-Fault Station Location at the earth s surface between main fault & branch 3 hz low-pass Butterworth filter applied 3 hz low-pass Butterworth filter applied TPV24 Releasing Branch TPV25 Restraining Branch Harris, March 2013
14 Model Setup Adapted from Dynamic Rupture Code Validation Workshop branch fault benchmark. 3D finite element code FaultMod (Barall, 2009).
15 Splay Fault Parameter Study Right and left branches. Right and left lateral slip. Four nucleation points per branch geometry. Four different velocity structures. Variable branch angle. Variable regional stress field orientation.
16 References Barall, M. (2009). A grid-doubling technique for calculating dynamic threedimensional spontaneous rupture on an earthquake fault, Geophysical Journal International 178, Barall, M. (2013). Branch fault benchmarks TPV24 and TPV25. Dynamic Rupture Code Validation Workshop, Menlo Park, CA. Conference presentation. Harris, R. (2013). Splays and linkage: dynamic rupture modeling. SWUS GMC Workshop #1, Oakland, CA. Conference presentation. Kame, N., J. Rice, and R. Dmowska (2003). Effects of pre-stress state and rupture velocity on dynamic fault branching, Journal of Geophysical Research 108, 2265, doi: /2002JB Lozos, J., D. Oglesby, B. Duan, and S. Wesnousky (2011). The effects of double fault bends on rupture propagation: a geometrical parameter study, Bulletin of the Seismological Society of America 101, Lozos, J. (2013). Dynamic rupture and ground motion modeling on realistically complex strike-slip faults, PhD dissertation, University of California, Riverside.
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