A method is proposed for calculating the shear viscosity of a liquid from finite-size effects of self-diffusion coefficients in Molecular Dynamics simulations. This method uses the difference in the self-diffusivities, computed from at least two system sizes, and an analytic equation to calculate the shear viscosity. To enable the efficient use of this method, a set of guidelines is developed. The most efficient number of system sizes is two and the large system is at least four times the small system. The number of independent simulations for each system size should be assigned in such a way that 50%-70% of the total available computational resources are allocated to the large system. We verified the method for 250 binary and 26 ternary Le...
This dataset contains the results of non-equilibrium atomistic Molecular Dynamics simulations of wat...
We discuss two methods for determining the shear viscosity of a fluid of particles with Yukawa inter...
We consider finite size effects on calculation of the viscosity of bulk molecular fluids using molec...
A method is proposed for calculating the shear viscosity of a liquid from finite-size effects of sel...
Several methods are available for calculating shear viscosities of liquids from molecular dynamics s...
The reverse nonequilibrium molecular dynamics [F. Muller- Plathe, Phys. Rev. E 49, 359 (1999)] prese...
A novel non-equilibrium method for calculating the shear viscosity is presented. It reverses the cau...
We study the system-size dependence of translational diffusion coefficients and viscosities in molec...
We have used equilibrium and nonequilibrium molecular dynamics simulations to study the solute self-...
<p>A method for the simultaneous determination of the thermal conductivity <i>λ</i> and the shear vi...
This dataset contains the results of equilibrium atomistic Molecular Dynamics simulations of water-g...
Abstract: An empirical expression based on the general notions of available structural and diffusion...
The shear viscosity of n-butane has been computed by the method of molecular dynamics (MD), by both ...
Reverse nonequilibrium molecular dynamics and equilibrium molecular dynamics simulations were carrie...
In this thesis, we use equilibrium molecular dynamics (EMD) methods to investigate the nonlocal visc...
This dataset contains the results of non-equilibrium atomistic Molecular Dynamics simulations of wat...
We discuss two methods for determining the shear viscosity of a fluid of particles with Yukawa inter...
We consider finite size effects on calculation of the viscosity of bulk molecular fluids using molec...
A method is proposed for calculating the shear viscosity of a liquid from finite-size effects of sel...
Several methods are available for calculating shear viscosities of liquids from molecular dynamics s...
The reverse nonequilibrium molecular dynamics [F. Muller- Plathe, Phys. Rev. E 49, 359 (1999)] prese...
A novel non-equilibrium method for calculating the shear viscosity is presented. It reverses the cau...
We study the system-size dependence of translational diffusion coefficients and viscosities in molec...
We have used equilibrium and nonequilibrium molecular dynamics simulations to study the solute self-...
<p>A method for the simultaneous determination of the thermal conductivity <i>λ</i> and the shear vi...
This dataset contains the results of equilibrium atomistic Molecular Dynamics simulations of water-g...
Abstract: An empirical expression based on the general notions of available structural and diffusion...
The shear viscosity of n-butane has been computed by the method of molecular dynamics (MD), by both ...
Reverse nonequilibrium molecular dynamics and equilibrium molecular dynamics simulations were carrie...
In this thesis, we use equilibrium molecular dynamics (EMD) methods to investigate the nonlocal visc...
This dataset contains the results of non-equilibrium atomistic Molecular Dynamics simulations of wat...
We discuss two methods for determining the shear viscosity of a fluid of particles with Yukawa inter...
We consider finite size effects on calculation of the viscosity of bulk molecular fluids using molec...