We establish that the behavior of fluids consisting of repulsive spheres under the combined effects of pressure p, temperature T, and applied shear stress s can be organized in a jamming phase diagram parameterized by the dimensionless quantities T/pd^3, s/p, and pd^3/e, where d is the diameter of the spheres and e is the interaction energy scale. The jamming phase diagram describes the three-dimensional parameter space as the product of an equilibrium plane at s/p=0 and a hard sphere plane at pd^3/e=0. Near the hard sphere plane, the jamming phase diagram is universal in the sense that material properties are insensitive to the details of the interaction potential. We demonstrate that within the universal regime, the conventional approa...
We discuss some recent results on Statistical Mechanics approach to dense granular media. In particu...
The relationship between spatially heterogeneous dynamics (SHD) and jamming is studied in a glass-fo...
18 pages; submitted to J. Chem. Phys. for "Special Topic Issue on the Glass Transition"International...
We establish that the behavior of fluids consisting of repulsive spheres under the combined effects ...
We establish that the behavior of fluids consisting of repulsive spheres under the combined effects ...
We present a new formulation of the jamming phase diagram for a class of glass-forming fluids consis...
11 pages, 8 figures Journal: Phys. Rev. E 81, 031505 (2010)International audienceWe combine the hype...
The non-Newtonian flow behavior of thermal and athermal disordered systems of dispersed uniform part...
The non-Newtonian flow behavior of thermal and athermal disordered systems of dispersed uniform part...
The results discussed here deal with the equilibrium as well as the nonequilibrium properties of gla...
We use molecular dynamics to investigate the glass transition occurring at large volume fraction, φ,...
Many fascinating questions still remain unsettled for condensed matter physicists who study the glas...
We show that, in the equilibrium phase of glass-forming hard-sphere fluids in three dimensions, the ...
We investigate the mechanical properties of several model liquids and corresponding local energy min...
This work focuses on the study of nonequilibrium systems driven close to jamming. Macroscopic partic...
We discuss some recent results on Statistical Mechanics approach to dense granular media. In particu...
The relationship between spatially heterogeneous dynamics (SHD) and jamming is studied in a glass-fo...
18 pages; submitted to J. Chem. Phys. for "Special Topic Issue on the Glass Transition"International...
We establish that the behavior of fluids consisting of repulsive spheres under the combined effects ...
We establish that the behavior of fluids consisting of repulsive spheres under the combined effects ...
We present a new formulation of the jamming phase diagram for a class of glass-forming fluids consis...
11 pages, 8 figures Journal: Phys. Rev. E 81, 031505 (2010)International audienceWe combine the hype...
The non-Newtonian flow behavior of thermal and athermal disordered systems of dispersed uniform part...
The non-Newtonian flow behavior of thermal and athermal disordered systems of dispersed uniform part...
The results discussed here deal with the equilibrium as well as the nonequilibrium properties of gla...
We use molecular dynamics to investigate the glass transition occurring at large volume fraction, φ,...
Many fascinating questions still remain unsettled for condensed matter physicists who study the glas...
We show that, in the equilibrium phase of glass-forming hard-sphere fluids in three dimensions, the ...
We investigate the mechanical properties of several model liquids and corresponding local energy min...
This work focuses on the study of nonequilibrium systems driven close to jamming. Macroscopic partic...
We discuss some recent results on Statistical Mechanics approach to dense granular media. In particu...
The relationship between spatially heterogeneous dynamics (SHD) and jamming is studied in a glass-fo...
18 pages; submitted to J. Chem. Phys. for "Special Topic Issue on the Glass Transition"International...