Recent results on theoretical studies of heat conduction in low-dimensional systems are presented. These studies are on simple, yet non-trivial, models. Most of these are classical systems, but some quantum-mechanical work is also reported. Much of the work has been on lattice models corresponding to phononic systems, and some on hard-particle and hard-disc systems. A recently developed approach, using generalized Langevin equations and phonon Green's functions, is explained and several applications to harmonic systems are given. For interacting systems, various analytic approaches based on the Green-Kubo formula are described, and their predictions are compared with the latest results from simulation. These results indicate that for moment...
One-dimensional particle chains are fundamental models to explain anomalous thermal conduction in lo...
The impact of lattice vibrations on the electric conductivity has been considered a settled issue si...
We provide an overview on the problem of modeling heat transport at nanoscale and in far-from-equili...
Recent results on theoretical studies of heat conduction in low-dimensional systems are presented. T...
Heat conduction is an important energy transport process in nature. Phonon is the major en...
Heat conduction is an important energy transport process in nature. Phonon is the major energy carri...
We work out the non-equilibrium steady state properties of a harmonic lattice which is connected to ...
Energy transfer in small nano-sized systems can be very different from that in their macroscopic cou...
Molecular dynamics simulations and methods of importance sampling are used to study the heat transpo...
Heat is transferred along a temperature gradient, from hot to cold, at a rate determined by the ther...
We studied the phononic heat transfer through an atomic dielectric wire with both infinite and finit...
The discovery of nanostructures and the development of growth and fabrication techniques of one- and...
We investigate the mechanism of heat conduction in ordered and disordered harmonic onedimensional ch...
We study thermal transport in a chain of coupled atoms, which can vibrate in longitudinal as well as...
We consider one-dimensional systems of all-to-all harmonically coupled particles with arbitrary mass...
One-dimensional particle chains are fundamental models to explain anomalous thermal conduction in lo...
The impact of lattice vibrations on the electric conductivity has been considered a settled issue si...
We provide an overview on the problem of modeling heat transport at nanoscale and in far-from-equili...
Recent results on theoretical studies of heat conduction in low-dimensional systems are presented. T...
Heat conduction is an important energy transport process in nature. Phonon is the major en...
Heat conduction is an important energy transport process in nature. Phonon is the major energy carri...
We work out the non-equilibrium steady state properties of a harmonic lattice which is connected to ...
Energy transfer in small nano-sized systems can be very different from that in their macroscopic cou...
Molecular dynamics simulations and methods of importance sampling are used to study the heat transpo...
Heat is transferred along a temperature gradient, from hot to cold, at a rate determined by the ther...
We studied the phononic heat transfer through an atomic dielectric wire with both infinite and finit...
The discovery of nanostructures and the development of growth and fabrication techniques of one- and...
We investigate the mechanism of heat conduction in ordered and disordered harmonic onedimensional ch...
We study thermal transport in a chain of coupled atoms, which can vibrate in longitudinal as well as...
We consider one-dimensional systems of all-to-all harmonically coupled particles with arbitrary mass...
One-dimensional particle chains are fundamental models to explain anomalous thermal conduction in lo...
The impact of lattice vibrations on the electric conductivity has been considered a settled issue si...
We provide an overview on the problem of modeling heat transport at nanoscale and in far-from-equili...