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Jean-Louis Barrat

Showing results (1-10 of 70) with videos related to

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Physical Review. E|March 18, 2016
Role of inertia in the rheology of amorphous systems: A finite-element-based elastoplastic modelKamran Karimi, Jean-Louis Barrat
Soft Matter|September 9, 2020
Flow boundary conditions from nano- to micro-scalesLydéric Bocquet, Jean-Louis Barrat
Physical Review Letters|April 16, 2013
Spatial cooperativity in microchannel flows of soft jammed materials: a mesoscopic approachAlexandre Nicolas, Jean-Louis Barrat
Physical Review Letters|June 13, 2009
Jamming transition as probed by quasistatic shear flowClaus Heussinger, Jean-Louis Barrat
Physical Review Letters|August 23, 2002
Shearing a glassy material: numerical tests of nonequilibrium mode-coupling approaches and experimental proposalsLudovic Berthier, Jean-Louis Barrat
Nano Letters|June 15, 2006
Modeling transient absorption and thermal conductivity in a simple nanofluidMihail Vladkov, Jean-Louis Barrat
The Journal of Chemical Physics|August 2, 2013
On the Green-Kubo relationship for the liquid-solid friction coefficientLydéric Bocquet, Jean-Louis Barrat
Scientific Reports|March 7, 2018
Correlation and shear bands in a plastically deformed granular mediumKamran Karimi, Jean-Louis Barrat
Faraday Discussions|March 20, 2014
A mesoscopic model for the rheology of soft amorphous solids, with application to microchannel flowsAlexandre Nicolas, Jean-Louis Barrat
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|March 21, 2008
Shear-induced crystallization of an amorphous systemAnatolii V Mokshin, Jean-Louis Barrat
Pageof 7

Showing results (1-10 of 70) with videos related to

Sort By:
Pageof 7
Physical Review. E|March 18, 2016
Role of inertia in the rheology of amorphous systems: A finite-element-based elastoplastic modelKamran Karimi, Jean-Louis Barrat
Soft Matter|September 9, 2020
Flow boundary conditions from nano- to micro-scalesLydéric Bocquet, Jean-Louis Barrat
Physical Review Letters|April 16, 2013
Spatial cooperativity in microchannel flows of soft jammed materials: a mesoscopic approachAlexandre Nicolas, Jean-Louis Barrat
Physical Review Letters|June 13, 2009
Jamming transition as probed by quasistatic shear flowClaus Heussinger, Jean-Louis Barrat
Physical Review Letters|August 23, 2002
Shearing a glassy material: numerical tests of nonequilibrium mode-coupling approaches and experimental proposalsLudovic Berthier, Jean-Louis Barrat
Nano Letters|June 15, 2006
Modeling transient absorption and thermal conductivity in a simple nanofluidMihail Vladkov, Jean-Louis Barrat
The Journal of Chemical Physics|August 2, 2013
On the Green-Kubo relationship for the liquid-solid friction coefficientLydéric Bocquet, Jean-Louis Barrat
Scientific Reports|March 7, 2018
Correlation and shear bands in a plastically deformed granular mediumKamran Karimi, Jean-Louis Barrat
Faraday Discussions|March 20, 2014
A mesoscopic model for the rheology of soft amorphous solids, with application to microchannel flowsAlexandre Nicolas, Jean-Louis Barrat
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|March 21, 2008
Shear-induced crystallization of an amorphous systemAnatolii V Mokshin, Jean-Louis Barrat
Pageof 7