|
|
Plastic Response of a 2D Amorphous Solid to Quasi-Static Shear : II - Dynamical Noise and Avalanches in a Mean Field Model
Anaël Lemaître
,
Christiane Caroli
2007
Preprints, Working Papers, ...
hal-00368915v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Rate-Dependent Avalanche Size in Athermally Sheared Amorphous Solids
Anaël Lemaître
,
Christiane Caroli
Journal articles
hal-00542538v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Ultrafast spherulitic crystal growth as a stress-induced phenomenon specific of fragile glass-formers
Christiane Caroli
,
Anael Lemaitre
Journal articles
hal-00826816v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Plastic response of a two-dimensional amorphous solid to quasistatic shear: Transverse particle diffusion and phenomenology of dissipative events
Anaël Lemaître
,
Christiane Caroli
Journal articles
hal-00368916v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Key role of retardation and non-locality in sound propagation in amorphous solids as evidenced by a projection formalism
Christiane Caroli
,
Anaël Lemaître
Journal articles
hal-03942534v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Robustness of avalanche dynamics in sheared amorphous solids as probed by transverse diffusion
Joyjit Chattoraj
,
Christiane Caroli
,
Anael Lemaitre
Journal articles
hal-00688395v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Glass-like stress relaxation of a permanent gelatin network as a signature of pretransitional helix-coil fluctuations
Christiane Caroli
,
Olivier Ronsin
,
Anael Lemaitre
Journal articles
hal-01738101v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Fluctuating Elasticity Fails to Capture Anomalous Sound Scattering in Amorphous Solids
Christiane Caroli
,
Anaël Lemaître
Journal articles
hal-03942523v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|
|
|
Universal, additive effect of temperature on the rheology of amorphous solids
Joyjit Chattoraj
,
Christiane Caroli
,
Anael Lemaitre
Journal articles
hal-00540525v1
|
Share
Gmail
Facebook
Twitter
LinkedIn
More
|