We estimate fracture energy on extended faults for several recent earthquakes by retrieving dynamic traction evolution at each point on the fault plane from slip history imaged by inverting ground motion waveforms. We define the breakdown work (Wb) as the excess of work over some minimum traction level achieved during slip. Wb is equivalent to "seismological" fracture energy (G) in previous investigations. Our numerical approach uses slip velocity as a boundary condition on the fault. We employ a three-dimensional finite difference algorithm to compute the dynamic traction evolution in the time domain during the earthquake rupture. We estimate Wb by calculating the scalar product between dynamic traction and slip velocity vectors. This app...
134 pagesEarthquakes are among the least predictable natural disasters, mainly due to our insufficie...
We estimate seismological fracture energies from two subsets of events selected from the seismic seq...
We compute the temporal evolution of traction by solving the elasto-dynamic equation and by using th...
We estimate fracture energy on extended faults for several recent earthquakes by retrieving dynamic ...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds-of-...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
International audiencePotential energy stored during the inter-seismic period by tectonic loading ar...
Potential energy stored during the inter-seismic period by tectonic loading around faults is release...
We explore the relationships between the fracture energy density (E_G) and the key parameters charac...
When an earthquake nucleates in the earth crust, the potential energy accumulated during the inter-s...
The energy dissipated during the friction weakening process at the front of an earthquake rupture, w...
Experiments performed on rocks at deformation conditions typical of seismic slip, show an extremely ...
We attempt to reconcile current understanding of the earthquake energy balance with recent estimates...
Recent estimates of fracture energy G ′ in earthquakes show a power-law dependence with slip u which...
Abstract We estimate the critical slip-weakening distance on earthquake faults by using a new approa...
134 pagesEarthquakes are among the least predictable natural disasters, mainly due to our insufficie...
We estimate seismological fracture energies from two subsets of events selected from the seismic seq...
We compute the temporal evolution of traction by solving the elasto-dynamic equation and by using th...
We estimate fracture energy on extended faults for several recent earthquakes by retrieving dynamic ...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds-of-...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
International audiencePotential energy stored during the inter-seismic period by tectonic loading ar...
Potential energy stored during the inter-seismic period by tectonic loading around faults is release...
We explore the relationships between the fracture energy density (E_G) and the key parameters charac...
When an earthquake nucleates in the earth crust, the potential energy accumulated during the inter-s...
The energy dissipated during the friction weakening process at the front of an earthquake rupture, w...
Experiments performed on rocks at deformation conditions typical of seismic slip, show an extremely ...
We attempt to reconcile current understanding of the earthquake energy balance with recent estimates...
Recent estimates of fracture energy G ′ in earthquakes show a power-law dependence with slip u which...
Abstract We estimate the critical slip-weakening distance on earthquake faults by using a new approa...
134 pagesEarthquakes are among the least predictable natural disasters, mainly due to our insufficie...
We estimate seismological fracture energies from two subsets of events selected from the seismic seq...
We compute the temporal evolution of traction by solving the elasto-dynamic equation and by using th...