Add to ORKG© 2016 The Author(s).The redistribution of heat between two subsystems in the two-dimensional crystal consisting of particles interacting by means of the Lennard-Jones potential with argon parameters is considered in the frame of molecular dynamics method. Calculations of heat flux, its time derivative and kinetic temperature gradient showed that the characteristic relaxation times of the nonequilibrium flux within the nonlocal Cattaneo model at temperatures 10. K. <. T<. 40. K are very small (τv<10-11s) and, comparable with the time of phonons free path
We present results of a standard (constant energy) molecular dynamics simulation of a Lennard-Jones ...
A heat-transport equation incorporating nonlocal and nonlinear contributions of the heat flux is der...
We have performed a molecular-dynamics simulation of a face-centered-cubic Lennard-Jones crystal, an...
© 2016 The Author(s).The redistribution of heat between two subsystems in the two-dimensional crysta...
AbstractThe redistribution of heat between two subsystems in the two-dimensional crystal consisting ...
The redistribution of heat between two subsystems in the two-dimensional crystal consisting of parti...
The kinetic temperature fluctuations in two-dimensional Lennard–Jones systems are compared under equ...
A one-component Lennard-Jones/spline fluid at equilibrium was perturbed by a sudden change of the te...
The correct analysis of heat transport at nanoscale is one of the main reasons of new developments i...
A non-local and non-linear thermodynamical model of heat transfer at nanoscale beyond the well-known...
We develop an approach for using equilibrium and nonequilibrium molecular-dynamics simulations to de...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
We have performed long-time runs of molecular-dynamics computer simulations of a two-dimensional Len...
The establishment of thermal diffusion in an Ar-Kr Lennard-Jones mixture is investigated via dynamic...
In this work we investigate the transient solidification of a Lennard-Jones liquid using non-equilib...
We present results of a standard (constant energy) molecular dynamics simulation of a Lennard-Jones ...
A heat-transport equation incorporating nonlocal and nonlinear contributions of the heat flux is der...
We have performed a molecular-dynamics simulation of a face-centered-cubic Lennard-Jones crystal, an...
© 2016 The Author(s).The redistribution of heat between two subsystems in the two-dimensional crysta...
AbstractThe redistribution of heat between two subsystems in the two-dimensional crystal consisting ...
The redistribution of heat between two subsystems in the two-dimensional crystal consisting of parti...
The kinetic temperature fluctuations in two-dimensional Lennard–Jones systems are compared under equ...
A one-component Lennard-Jones/spline fluid at equilibrium was perturbed by a sudden change of the te...
The correct analysis of heat transport at nanoscale is one of the main reasons of new developments i...
A non-local and non-linear thermodynamical model of heat transfer at nanoscale beyond the well-known...
We develop an approach for using equilibrium and nonequilibrium molecular-dynamics simulations to de...
Nonequilibrium molecular dynamics (NEMD) has been extensively used to study thermal transport at var...
We have performed long-time runs of molecular-dynamics computer simulations of a two-dimensional Len...
The establishment of thermal diffusion in an Ar-Kr Lennard-Jones mixture is investigated via dynamic...
In this work we investigate the transient solidification of a Lennard-Jones liquid using non-equilib...
We present results of a standard (constant energy) molecular dynamics simulation of a Lennard-Jones ...
A heat-transport equation incorporating nonlocal and nonlinear contributions of the heat flux is der...
We have performed a molecular-dynamics simulation of a face-centered-cubic Lennard-Jones crystal, an...