Add to ORKGRecent experiments show that the deformation properties of a wide range of solid materials are surprisingly similar. When slowly pushed, they deform via intermittent slips, similar to earthquakes. The statistics of these slips agree across vastly different structures and scales. A simple analytical model explains why this is the case. The model also predicts which statistical quantities are independent of the microscopic details (i.e., they are universal ), and which ones are not. The model provides physical intuition for the deformation mechanism and new ways to organize experimental data. It also shows how to transfer results from one scale to another. The model predictions agree with experiments. The results are expected to be relevant ...
International audienceWe present exploratory analogies and speculations on the mechanisms underlying...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
We propose a new approach for generating synthetic earthquake catalogues based on the physics of sof...
Slowly-compressed single crystals, bulk metallic glasses (BMGs), rocks, granular materials, and the ...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
We observe two distinct interevent time patterns in the slip avalanches of compressed bulk metallic ...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
We propose a new approach for generating synthetic earthquakes based on the physics of soft glasses....
The goal of predicting earthquakes remains elusive despite decades of instrumental observations and ...
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips), whose s...
Analog sandbox experiments are an important tool to understand brittle tectonic deformation. To date...
Elastic waves are generated when brittle materials are subjected to increasing strain. Their number ...
Invited review articleInternational audienceStress enhancement in the vicinity of brittle cracks mak...
Nanotwinned materials are known for their high strength and ductility, i.e. damage tolerance. The fu...
International audienceRupture events, as the propagation of cracks or the sliding along faults, asso...
International audienceWe present exploratory analogies and speculations on the mechanisms underlying...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
We propose a new approach for generating synthetic earthquake catalogues based on the physics of sof...
Slowly-compressed single crystals, bulk metallic glasses (BMGs), rocks, granular materials, and the ...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
We observe two distinct interevent time patterns in the slip avalanches of compressed bulk metallic ...
Slowly strained solids deform via intermittent slips that exhibit a material-independent critical si...
We propose a new approach for generating synthetic earthquakes based on the physics of soft glasses....
The goal of predicting earthquakes remains elusive despite decades of instrumental observations and ...
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips), whose s...
Analog sandbox experiments are an important tool to understand brittle tectonic deformation. To date...
Elastic waves are generated when brittle materials are subjected to increasing strain. Their number ...
Invited review articleInternational audienceStress enhancement in the vicinity of brittle cracks mak...
Nanotwinned materials are known for their high strength and ductility, i.e. damage tolerance. The fu...
International audienceRupture events, as the propagation of cracks or the sliding along faults, asso...
International audienceWe present exploratory analogies and speculations on the mechanisms underlying...
The flow of granular materials and metallic glasses is governed by strongly correlated, avalanche-li...
We propose a new approach for generating synthetic earthquake catalogues based on the physics of sof...