In subduction zones, seismic slip at shallow crustal depths can lead to the generation of tsunamis. Large slip displacements during tsunamogenic earthquakes are attributed to the low coseismic shear strength of the fluid-saturated and non-lithified clay-rich fault rocks. However, because of experimental challenges in confining these materials, the physical processes responsible for the coseismic reduction in fault shear strength are poorly understood. Using a novel experimental setup, we measured pore fluid pressure during simulated seismic slip in clay-rich materials sampled from the deep oceanic drilling of the Pāpaku thrust (Hikurangi subduction zone, New Zealand). Here, we show that at seismic velocity, shear-induced dilatancy is follow...
AbstractThe Hikurangi subduction zone hosts shallow slow‐slip events, possibly extending to the seaf...
It is widely recognized that the significant increase of M > 3.0 earthquakes in Western Canada and t...
Recurring slow slip along near-trench megathrust faults occurs at many subduction zones, but for unk...
In subduction zones, seismic slip at shallow crustal depths can lead to the generation of tsunamis. ...
Rock damage during earthquake slip affects fluid migration within the fault core and the surrounding...
The 2011 Tohoku-Oki earthquake demonstrated that the shallowest reaches of plate boundary subduction...
Pore-fluid pressure is an important parameter in controlling fault mechanics as it lowers the effect...
Earthquakes occur because fault friction weakens with increasing slip and slip rates. Since the slip...
The Hikurangi subduction zone is capable of producing moderate to large earthquakes as well as regul...
Stress, saturation, and the presence of fractures impact the elastic properties and permeability of ...
We conducted high-velocity friction experiments on clay-rich fault gouge taken from the megasplay fa...
Pore pressure is an important factor in controlling the slip instability of faults and thus the gene...
Coseismic fault displacement is quite large at shallow depths in some earthquakes, and it implies th...
Fluid overpressure is one of the primary mechanisms for tectonic fault slip, because fluids lubricat...
Recent geodetic studies have shown that slow-slip events can occur on subduction faults, including t...
AbstractThe Hikurangi subduction zone hosts shallow slow‐slip events, possibly extending to the seaf...
It is widely recognized that the significant increase of M > 3.0 earthquakes in Western Canada and t...
Recurring slow slip along near-trench megathrust faults occurs at many subduction zones, but for unk...
In subduction zones, seismic slip at shallow crustal depths can lead to the generation of tsunamis. ...
Rock damage during earthquake slip affects fluid migration within the fault core and the surrounding...
The 2011 Tohoku-Oki earthquake demonstrated that the shallowest reaches of plate boundary subduction...
Pore-fluid pressure is an important parameter in controlling fault mechanics as it lowers the effect...
Earthquakes occur because fault friction weakens with increasing slip and slip rates. Since the slip...
The Hikurangi subduction zone is capable of producing moderate to large earthquakes as well as regul...
Stress, saturation, and the presence of fractures impact the elastic properties and permeability of ...
We conducted high-velocity friction experiments on clay-rich fault gouge taken from the megasplay fa...
Pore pressure is an important factor in controlling the slip instability of faults and thus the gene...
Coseismic fault displacement is quite large at shallow depths in some earthquakes, and it implies th...
Fluid overpressure is one of the primary mechanisms for tectonic fault slip, because fluids lubricat...
Recent geodetic studies have shown that slow-slip events can occur on subduction faults, including t...
AbstractThe Hikurangi subduction zone hosts shallow slow‐slip events, possibly extending to the seaf...
It is widely recognized that the significant increase of M > 3.0 earthquakes in Western Canada and t...
Recurring slow slip along near-trench megathrust faults occurs at many subduction zones, but for unk...
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