Pure substances can often be cooled below their melting points and still remain in the liq-uid state. For some supercooled liquids, a further cooling slows down viscous flow greatly, but does not slow down self-diffusion as much. We formulate a continuum theory that regards viscous flow and self-diffusion as concurrent, but distinct, processes. We generalize Newton’s law of viscosity to relate stress, rate of deformation, and chemical potential. The self-diffusion flux is taken to be proportional to the gradient of chemical potential. The relative rate of viscous flow and self-diffusion defines a length, which, for some supercooled liquids, is much larger than the molecular dimension. A thermody-namic consideration leads to boundary conditi...
Various static and dynamic phenomena displayed by glass-forming liquids, particularly those near the...
In this paper, a method to analyze the temperature and pressure dependences of the viscosity or of t...
We study self-diffusion within a simple hopping model for glassy materials. (The model is Bouchaud's...
By performing an elementary transformation, the conventional velocity autocorrelation function expre...
The transport and relaxation properties of a molecular supercooled liquid on an isobar are studied b...
Among the numerous anomalies of water, the acceleration of dynamics under pressure is particularly p...
In structurally disordered glass-forming liquids, the Stokes-Einstein (SE) law for translational dif...
Several experimental and computer simulation studies have found a partial decoupling between the dif...
Our earlier molecular shape dependent theoretical model for self-diffusion in, and the viscosity of,...
To explain the temperature dependence of self-diffusion coefficients, static shear viscosity, and el...
We have carried out extensive molecular dynamics simulations of a supercooled polydisperse Lennard-J...
In liquids, the self-diffusion D and the viscosity η can be often linked by the phenomenological Sto...
Recent experiments have indicated a dramatically different viscosity dependence of the translational...
The microscopic origin of glass transition, when liquid viscosity changes continuously by more than ...
Measurements of the self-diffusion coefficient in supercooled water to 300 MPa are reported. Transla...
Various static and dynamic phenomena displayed by glass-forming liquids, particularly those near the...
In this paper, a method to analyze the temperature and pressure dependences of the viscosity or of t...
We study self-diffusion within a simple hopping model for glassy materials. (The model is Bouchaud's...
By performing an elementary transformation, the conventional velocity autocorrelation function expre...
The transport and relaxation properties of a molecular supercooled liquid on an isobar are studied b...
Among the numerous anomalies of water, the acceleration of dynamics under pressure is particularly p...
In structurally disordered glass-forming liquids, the Stokes-Einstein (SE) law for translational dif...
Several experimental and computer simulation studies have found a partial decoupling between the dif...
Our earlier molecular shape dependent theoretical model for self-diffusion in, and the viscosity of,...
To explain the temperature dependence of self-diffusion coefficients, static shear viscosity, and el...
We have carried out extensive molecular dynamics simulations of a supercooled polydisperse Lennard-J...
In liquids, the self-diffusion D and the viscosity η can be often linked by the phenomenological Sto...
Recent experiments have indicated a dramatically different viscosity dependence of the translational...
The microscopic origin of glass transition, when liquid viscosity changes continuously by more than ...
Measurements of the self-diffusion coefficient in supercooled water to 300 MPa are reported. Transla...
Various static and dynamic phenomena displayed by glass-forming liquids, particularly those near the...
In this paper, a method to analyze the temperature and pressure dependences of the viscosity or of t...
We study self-diffusion within a simple hopping model for glassy materials. (The model is Bouchaud's...