Avalanche statistics of various threshold activated dynamical systems are known to depend on the magnitude of the drive, or stress, on the system. Such dependencies exist for earthquake size distributions, in sheared granular avalanches, laboratory scale fracture and also in the outage statistics of power grids. In this work we model threshold-activated avalanche dynamics and investigate the time required to detect local variations in the ability of model elements to bear stress. We show that the detection time follows a scaling law where the scaling exponents depend on whether the feature that is sought is either weaker, or stronger, than its surroundings. We then look at earthquake data from Sumatra and California, demonstrate the trade-o...
A simple numerical model to simulate athermal avalanches is presented. The model is inspired by the ...
Rupture in the heterogeneous crust appears to be a catastrophe transition. Catastrophic rupture sens...
The aim of this thesis is to reproduce and analyze the scale invariant behavior, as one can find in ...
International audienceBoth earthquake size-distributions and aftershock decay rates obey power laws....
Avalanches - bursts of activity spanning a vast range of sizes - occur in a wide variety of dynamica...
Avalanches whose sizes and durations are distributed as power laws appear in many contexts, from phy...
Dynamics of power outages remain an unpredictable hazard in spite of expensive consequences. While t...
Relaxational processes in many complex systems often occur in the form of avalanches resulting from ...
Instead of a linear and smooth evolution, many physical system react to external stimuli in avalanch...
Using an experimental setup which allows to follow optically the propagation of an interfacial crack...
We discuss the problem of earthquake forecasting in the context of new models for the dynamics based...
International audienceUsing Monte Carlo simulations of the process of breaking in arrays of elements...
A simple numerical model to simulate athermal avalanches is presented. The model is inspired by the ...
Physical systems characterized by stick-slip dynamics often display avalanches. Regardless of the di...
A multitude of systems ranging from the Barkhausen effect in ferromagnetic materials to plastic defo...
A simple numerical model to simulate athermal avalanches is presented. The model is inspired by the ...
Rupture in the heterogeneous crust appears to be a catastrophe transition. Catastrophic rupture sens...
The aim of this thesis is to reproduce and analyze the scale invariant behavior, as one can find in ...
International audienceBoth earthquake size-distributions and aftershock decay rates obey power laws....
Avalanches - bursts of activity spanning a vast range of sizes - occur in a wide variety of dynamica...
Avalanches whose sizes and durations are distributed as power laws appear in many contexts, from phy...
Dynamics of power outages remain an unpredictable hazard in spite of expensive consequences. While t...
Relaxational processes in many complex systems often occur in the form of avalanches resulting from ...
Instead of a linear and smooth evolution, many physical system react to external stimuli in avalanch...
Using an experimental setup which allows to follow optically the propagation of an interfacial crack...
We discuss the problem of earthquake forecasting in the context of new models for the dynamics based...
International audienceUsing Monte Carlo simulations of the process of breaking in arrays of elements...
A simple numerical model to simulate athermal avalanches is presented. The model is inspired by the ...
Physical systems characterized by stick-slip dynamics often display avalanches. Regardless of the di...
A multitude of systems ranging from the Barkhausen effect in ferromagnetic materials to plastic defo...
A simple numerical model to simulate athermal avalanches is presented. The model is inspired by the ...
Rupture in the heterogeneous crust appears to be a catastrophe transition. Catastrophic rupture sens...
The aim of this thesis is to reproduce and analyze the scale invariant behavior, as one can find in ...