Add to ORKGThe determination of the earthquake energy budget remains a challenging issue for Earth scientists, as understanding the partitioning of energy is a key towards the understanding the physics of earthquakes. Here we estimate the partition of the mechanical work density into heat and surface energy (energy required to create new fracture surface) during seismic slip on a location along a fault. Earthquake energy partitioning is determined from field and microstructural analyses of a fault segment decorated by pseudotachylyte (solidified friction-induced melt produced during seismic slip) exhumed from a depth of ~ 10 km - typical for earthquake hypocenters in the continental crust. Frictional heat per unit fault area estimated from the thickne...
During an earthquake, two blocks of the Earth’s crust slide past one another generating massive amou...
International audiencePotential energy stored during the inter-seismic period by tectonic loading ar...
Abstract: The energy dissipation in an earthquake can be partitioned into three components Wtot = Wr...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
Fracture energy EG (the energy used for expanding a rupture surface area) is the fraction of work du...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance ...
International audienceDuring an earthquake, part of the released elastic strain energy is dissipated...
We investigate the partitioning of energy released during an earthquake to radiated, fracture and t...
We investigate the partitioning of energy released during an earthquake to radiated, fracture and t...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds-of-...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds of ...
Fracture energy EG (the energy used for expanding a rupture surface area) is the fraction of work du...
During an earthquake, two blocks of the Earth’s crust slide past one another generating massive amou...
International audiencePotential energy stored during the inter-seismic period by tectonic loading ar...
Abstract: The energy dissipation in an earthquake can be partitioned into three components Wtot = Wr...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
The determination of the earthquake energy budget remains a challenging issue for Earth scientists, ...
Fracture energy EG (the energy used for expanding a rupture surface area) is the fraction of work du...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance w...
In this paper we attempt to reconcile a theoretical understanding of the earthquake energy balance ...
International audienceDuring an earthquake, part of the released elastic strain energy is dissipated...
We investigate the partitioning of energy released during an earthquake to radiated, fracture and t...
We investigate the partitioning of energy released during an earthquake to radiated, fracture and t...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds-of-...
Large seismogenic faults consist of approximately meter-thick fault cores surrounded by hundreds of ...
Fracture energy EG (the energy used for expanding a rupture surface area) is the fraction of work du...
During an earthquake, two blocks of the Earth’s crust slide past one another generating massive amou...
International audiencePotential energy stored during the inter-seismic period by tectonic loading ar...
Abstract: The energy dissipation in an earthquake can be partitioned into three components Wtot = Wr...