The temperature variation of the Gruneisen parameter γ is calculated for copper and germanium on the basis of the anisotropic continuum dispersive model, from the observed elastic anharmonicity. The detailed nature of the frequency spectrum does not seem to have any pronounced effect on the thermal expansion of a solid
GRONEISEN') has first derived an expression of the coefficient a of thermal expansion, i. e., a...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
The frequency distribution functions of copper and lithium have been calculated by sampling method f...
The frequency distribution functions of copper and lithium have been calculated by sampling method f...
The generalized Gruneisen parameters (gamma'(j)) an(gamma"(j)) for cadmium and zirconium were calcul...
The generalized Gruneisen parameters (gamma'(j)) an(gamma"(j)) for cadmium and zirconium were calcul...
The generalized Gruneisen parameters γ″ = - ∂ log ω/∂ε″ and γ′ = - ∂ log ω/∂ε′ have been calculated ...
The temperature variation of the Debye-Waller factor is calculated for copper on the basis of the an...
The generalized Gruneisen parameters γ″ = - ∂ log ω/∂ε″ and γ′ = - ∂ log ω/∂ε′ have been calculated ...
Predictions of the anisotropic coefficients of thermal expansion are needed to not only compare to e...
The Gruneisen parameter is calculated for different values of the phonon wave vector in the three pr...
Commonly used Gruneisen parameter (γ) models only hold accurate in limited regimes making them inap...
We have studied the role of thermal expansion in the thermal conductivity of solids. By treating the...
Commonly used Gruneisen parameter (γ) models only hold accurate in limited regimes making them inapp...
GRONEISEN') has first derived an expression of the coefficient a of thermal expansion, i. e., a...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
The frequency distribution functions of copper and lithium have been calculated by sampling method f...
The frequency distribution functions of copper and lithium have been calculated by sampling method f...
The generalized Gruneisen parameters (gamma'(j)) an(gamma"(j)) for cadmium and zirconium were calcul...
The generalized Gruneisen parameters (gamma'(j)) an(gamma"(j)) for cadmium and zirconium were calcul...
The generalized Gruneisen parameters γ″ = - ∂ log ω/∂ε″ and γ′ = - ∂ log ω/∂ε′ have been calculated ...
The temperature variation of the Debye-Waller factor is calculated for copper on the basis of the an...
The generalized Gruneisen parameters γ″ = - ∂ log ω/∂ε″ and γ′ = - ∂ log ω/∂ε′ have been calculated ...
Predictions of the anisotropic coefficients of thermal expansion are needed to not only compare to e...
The Gruneisen parameter is calculated for different values of the phonon wave vector in the three pr...
Commonly used Gruneisen parameter (γ) models only hold accurate in limited regimes making them inap...
We have studied the role of thermal expansion in the thermal conductivity of solids. By treating the...
Commonly used Gruneisen parameter (γ) models only hold accurate in limited regimes making them inapp...
GRONEISEN') has first derived an expression of the coefficient a of thermal expansion, i. e., a...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
According to Grüneisen, the expansion coefficient and the specific heat at constant volume would rem...
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