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Analysis of the anharmonic thermal expansion coefficient of crystalline silver
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The anharmonic thermal expansion (TE) coefficient of crystalline silver (Ag) has been calculated and analyzed in the temperature-dependent. Based on the anharmonic effective potential, the calculation model is developed using the correlated Debye model and the many-body perturbation approach. Thermodynamic parameters of the crystal lattice are derived from the influence of thermal vibrations of all atoms. The anharmonicity results from phonon-phonon interactions, with each thermal vibration can be quantized and treated as a phonon. The obtained expression of the anharmonic TE coefficient of Ag can satisfy all their temperature-dependent fundamental properties. The numerical results of Ag agree well with those obtained from the other theoretical models and experimental data at various temperatures in the range from 0 K to 1000 K. The obtained results indicate the effectiveness of the present model in investigating the TE coefficient of Ag.
Academy of Military Science and Technology
Title: Analysis of the anharmonic thermal expansion coefficient of crystalline silver
Description:
The anharmonic thermal expansion (TE) coefficient of crystalline silver (Ag) has been calculated and analyzed in the temperature-dependent.
Based on the anharmonic effective potential, the calculation model is developed using the correlated Debye model and the many-body perturbation approach.
Thermodynamic parameters of the crystal lattice are derived from the influence of thermal vibrations of all atoms.
The anharmonicity results from phonon-phonon interactions, with each thermal vibration can be quantized and treated as a phonon.
The obtained expression of the anharmonic TE coefficient of Ag can satisfy all their temperature-dependent fundamental properties.
The numerical results of Ag agree well with those obtained from the other theoretical models and experimental data at various temperatures in the range from 0 K to 1000 K.
The obtained results indicate the effectiveness of the present model in investigating the TE coefficient of Ag.
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