High-pressure study of thermodynamic parameters of diamond-type structured crystals using interatomic Morse potentials

High-pressure study of thermodynamic parameters of diamond-type structured crystals using interatomic Morse potentials

Abstract In this work, we have determined the mean square relative displacement, elastic constant, anharmonic effective potential, correlated function, local force constant, and other thermodynamic parameters of diamond-type structured crystals under high-pressure up to 14 GPa. The parameters are ca...

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Bibliographic Details
Main Authors: Duc Ba Nguyen, Hiep Phi Trinh
Format: article
Language:EN
Published: SpringerOpen 2021
Subjects:
Morse potential parameter
State equation
Correlation function
Elastic constant
Mean square relative displacement
Engineering (General). Civil engineering (General)
TA1-2040
Online Access:https://doaj.org/article/7a33a134f38a4b6bbac338c0777174fc
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Summary:Abstract In this work, we have determined the mean square relative displacement, elastic constant, anharmonic effective potential, correlated function, local force constant, and other thermodynamic parameters of diamond-type structured crystals under high-pressure up to 14 GPa. The parameters are calculated through theoretical interatomic Morse potential parameters, by using the sublimation energy, the compressibility, and the lattice constant in the expanded X-ray absorption fine structure spectrum. Numerical results agree well with the experimental values and other theories.

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