Journal of Pure and Applied Ultrasonics

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Temperature Variation of Anharmonic Properties of Thorium Sulphide


Affiliations
1 Department of Physics, Bundelkhand University, Jhansi-284128, India
2 Department of Physics, BNV College, Rath, Hamirpur-210431, India
 

For thorium sulphide; the elastic energy density is expanded as a power series of strains using Taylor series expansion starting from nearest neighbour distance and hardness parameter using Coulomb and Born-Mayer potentials for obtaining higher order elastic constants. The higher order elastic constants for a crystal are useful for obtaining the anharmonic properties of crystal within the limit of the continuum approximation in a quantitative manner. Thorium sulphide crystal possesses face centered crystal structure. For obtaining anharmonic properties, the second, the third and the fourth order elastic constants of thorium sulphide crystal at elevated temperature are computed. These elastic constants are used to evaluate their pressure derivatives. The results have been discussed with available findings.

Keywords

Elastic Constants, Anharmonicty, Partial Contraction.
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  • Kumar J., Kumar V., Kailash and Srivastava S.K., Temperature dependent anharmonic properties of calcium oxide crystal, J. Pure Appl. Ultrasonics, 34 (2013) 30.

  • Kailash, Raju K.M., Shrivastava S.K. and Kushwaha K.S., Anharmonic properties of rocksalt structure solids, Physica B, 390 (2007) 270-280.

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  • Temperature Variation of Anharmonic Properties of Thorium Sulphide

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Authors

Padma Devi Nagaich
Department of Physics, Bundelkhand University, Jhansi-284128, India
Kailash
Department of Physics, BNV College, Rath, Hamirpur-210431, India

Abstract


For thorium sulphide; the elastic energy density is expanded as a power series of strains using Taylor series expansion starting from nearest neighbour distance and hardness parameter using Coulomb and Born-Mayer potentials for obtaining higher order elastic constants. The higher order elastic constants for a crystal are useful for obtaining the anharmonic properties of crystal within the limit of the continuum approximation in a quantitative manner. Thorium sulphide crystal possesses face centered crystal structure. For obtaining anharmonic properties, the second, the third and the fourth order elastic constants of thorium sulphide crystal at elevated temperature are computed. These elastic constants are used to evaluate their pressure derivatives. The results have been discussed with available findings.

Keywords


Elastic Constants, Anharmonicty, Partial Contraction.

References