We present a systematic study of the effect of strain (equivalent to uniform pressure) on the thermal conductivity of an insulating solid. Following a theoretical analysis that uncovers the dependence of the thermal conductivity on temperature and strain, we present classical molecular dynamics calculations of the thermal conductivity. We find that the molecular dynamics results closely match the theoretical result
Sem informaçãoLattice thermal conductivity (kappa) of bulk materials usually increases under compres...
Heat transfer is the exchange of heat energy between two bodies. There are three different modes of ...
We estimate the internal pressure due to the conductivity electrons in the metallic crystals of cubi...
We present a systematic study of the effect of strain (equivalent to uniform pressure) on the therma...
Nonequilibrium molecular dynamics (NEMD) simulations are employed to gain an understanding of the ef...
Open Access.We study heat conduction in a system of hard disks confined to a narrow two-dimensional ...
We study the conduction of heat across a narrow solid strip trapped by an external potential and in ...
Using a combination of equilibrium classical molecular dynamics (within the Green-Kubo formalism) an...
We theoretically investigate the thermal conductivity of freestanding silicene under isotropic tensi...
A mathematical model of the process of unsteady thermal conductivity of solids is proposed in the ca...
This study explores the feasibility of using the molecular dynamics computational technique to predi...
Since strain changes the interatomic spacing of matter and alters electron and phonon dispersion, an...
We have studied the role of thermal expansion in the thermal conductivity of solids. By treating the...
Based on first-principles calculations and full iterative solution of the linearized Boltzmann-Peier...
Thermal conductivity is a key parameter in designing high performance thermoelectric materials. A mu...
Sem informaçãoLattice thermal conductivity (kappa) of bulk materials usually increases under compres...
Heat transfer is the exchange of heat energy between two bodies. There are three different modes of ...
We estimate the internal pressure due to the conductivity electrons in the metallic crystals of cubi...
We present a systematic study of the effect of strain (equivalent to uniform pressure) on the therma...
Nonequilibrium molecular dynamics (NEMD) simulations are employed to gain an understanding of the ef...
Open Access.We study heat conduction in a system of hard disks confined to a narrow two-dimensional ...
We study the conduction of heat across a narrow solid strip trapped by an external potential and in ...
Using a combination of equilibrium classical molecular dynamics (within the Green-Kubo formalism) an...
We theoretically investigate the thermal conductivity of freestanding silicene under isotropic tensi...
A mathematical model of the process of unsteady thermal conductivity of solids is proposed in the ca...
This study explores the feasibility of using the molecular dynamics computational technique to predi...
Since strain changes the interatomic spacing of matter and alters electron and phonon dispersion, an...
We have studied the role of thermal expansion in the thermal conductivity of solids. By treating the...
Based on first-principles calculations and full iterative solution of the linearized Boltzmann-Peier...
Thermal conductivity is a key parameter in designing high performance thermoelectric materials. A mu...
Sem informaçãoLattice thermal conductivity (kappa) of bulk materials usually increases under compres...
Heat transfer is the exchange of heat energy between two bodies. There are three different modes of ...
We estimate the internal pressure due to the conductivity electrons in the metallic crystals of cubi...
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