期刊
JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
卷 113, 期 B4, 页码 -出版社
AMER GEOPHYSICAL UNION
DOI: 10.1029/2006JB004793
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[1] We study how enforcing self-consistency in the statistical properties of the preshear and postshear stress on a fault can be used to constrain fault constitutive behavior beyond that required to produce a desired spatial and temporal evolution of slip in a single event. We explore features of rupture dynamics that ( 1) lead to slip heterogeneity in earthquake ruptures and ( 2) maintain these conditions following rupture, so that the stress field is compatible with the generation of aftershocks and facilitates heterogeneous slip in subsequent events. Our three-dimensional finite element simulations of magnitude 7 events on a vertical, planar strike-slip fault show that the conditions that lead to slip heterogeneity remain in place after large events when the dynamic stress drop ( initial shear stress) and breakdown work ( fracture energy) are spatially heterogeneous. In these models the breakdown work is on the order of MJ/m(2), which is comparable to the radiated energy. These conditions producing slip heterogeneity also tend to produce narrower slip pulses independent of a slip rate dependence in the fault constitutive model. An alternative mechanism for generating these confined slip pulses appears to be fault constitutive models that have a stronger rate dependence, which also makes them difficult to implement in numerical models. We hypothesize that self-consistent ruptures could also be produced by very narrow slip pulses propagating in a self-sustaining heterogeneous stress field with breakdown work comparable to fracture energy estimates of kJ/M-2.
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