Dynamic rupture modeling of coseismic interactions on orthogonal strike-slip faults
Julian C. LozosPublished February 15, 2022, SCEC Contribution #13427
Intersecting orthogonal strike-slip faults with opposite senses of slip pose the question of what allows rupture to propagate through the junction and through both faults versus confining rupture to a single fault. I conduct dynamic rupture simulations on simplified orthogonal strike-slip fault systems, to determine which conditions produce rupture on both component faults. In models with uniform initial tractions on both faults, slip on the first fault must reduce normal stress on the second fault for it to rupture. If the first fault ends at the cross fault, a stopping phase causes the cross fault to rupture. In models where I resolve a uniform regional stress field on the faults, only a narrow range of stress orientations allow multifault ruptures. These results will be helpful for evaluating hazard near orthogonal strike-slip faults.
Citation
Lozos, J. C. (2022). Dynamic rupture modeling of coseismic interactions on orthogonal strike-slip faults. Geophysical Research letters, 49(5). doi: 10.1029/2021GL097585.
Related Projects & Working Groups
Fault and Rupture Mechanics (FARM)
