International audienceRecent studies show that earthquake faults may rupture at speeds exceeding the shear wave velocity of rocks. This supershear rupture produces in the ground a seismic shock wave similar to the sonic boom produced by a supersonic airplane. This shock wave may increase the destruction caused by the earthquake. We report that supershear earthquakes are characterized by a specific pattern of aftershocks: The fault plane itself is remarkably quiet whereas aftershocks cluster off the fault, on secondary structures that are activated by the supershear rupture. The post-earthquake quiescence of the fault shows that friction is relatively uniform over supershear segments, whereas the activation of off-fault structures is explain...
Studies of many large strike-slip earthquakes have shown that the seismicity rate increases in quadr...
Abstract Elastodynamic considerations suggest that the acceleration of ruptures to supershear veloci...
The occurrence of supershear ruptures implies unique pre- and post-seismic stress con ditions on an...
International audienceRecent studies show that earthquake faults may rupture at speeds exceeding the...
The structural design of infrastructure near to the fault zones may need a fair estimation of seismi...
Supershear earthquakes, whose rupture speeds are faster than that of the seismic shear waves, can be...
The potential for strong ground shaking in large earthquakes partly depends on how fast the earthqua...
International audienceRecent observations of large continental strike-slip earthquakes show that dif...
Earthquake rupture speeds exceeding the shear-wave velocity have been reported for several shallow s...
International audienceSupershear earthquake ruptures propagate faster than the shear wave velocity. ...
International audienceWe extend a model of a two-dimensional self-healing slip pulse, propagating dy...
International audienceWe extend a model of a two-dimensional self-healing slip pulse, propagating dy...
Aftershocks are the most striking evidence of earthquake interactions and the physical mechanisms at...
Thrust fault earthquakes are studied in a laboratory earthquake setup previously used to investigate...
Studies of many large strike-slip earthquakes have shown that the seismicity rate increases in quadr...
Abstract Elastodynamic considerations suggest that the acceleration of ruptures to supershear veloci...
The occurrence of supershear ruptures implies unique pre- and post-seismic stress con ditions on an...
International audienceRecent studies show that earthquake faults may rupture at speeds exceeding the...
The structural design of infrastructure near to the fault zones may need a fair estimation of seismi...
Supershear earthquakes, whose rupture speeds are faster than that of the seismic shear waves, can be...
The potential for strong ground shaking in large earthquakes partly depends on how fast the earthqua...
International audienceRecent observations of large continental strike-slip earthquakes show that dif...
Earthquake rupture speeds exceeding the shear-wave velocity have been reported for several shallow s...
International audienceSupershear earthquake ruptures propagate faster than the shear wave velocity. ...
International audienceWe extend a model of a two-dimensional self-healing slip pulse, propagating dy...
International audienceWe extend a model of a two-dimensional self-healing slip pulse, propagating dy...
Aftershocks are the most striking evidence of earthquake interactions and the physical mechanisms at...
Thrust fault earthquakes are studied in a laboratory earthquake setup previously used to investigate...
Studies of many large strike-slip earthquakes have shown that the seismicity rate increases in quadr...
Abstract Elastodynamic considerations suggest that the acceleration of ruptures to supershear veloci...
The occurrence of supershear ruptures implies unique pre- and post-seismic stress con ditions on an...