Turkish Journal of Physics
DOI
-
Abstract
The vibrational dynamics of Mg_{70}Zn_{30} metallic glass has been studied at room temperature in terms of phonon eigen-frequencies of longitudinal and transverse modes employing three different approaches proposed by Hubbard-Beeby (HB), Takeno-Goda (TG) and Bhatia-Singh (BS). The well-recognized model potential is employed successfully to explain electron-ion interaction in the metallic glass; instead of using experimental values of the pair correlation function g(r), which is generated from the computed pair potential. The present findings of phonon dispersion curve are found in fair agreement with available theoretical as well as experimental data. The thermodynamic properties obtained by HB and TG approaches are found much lower than those obtained by BS approach. The pseudo-alloy-atom (PAA) model is applied for the first time instead of Vegard's Law.
Keywords
Pair potential, Metallic Glasses, Phonon dispersion curves, Thermal properties, Elastic properties
First Page
323
Last Page
330
Recommended Citation
VORA, ADITYA M. (2008) "Computational Study of Vibrational Dynamics of Binary Mg_{0.70}Zn_{0.30} Metallic Glass by a Pseudopotential Theory," Turkish Journal of Physics: Vol. 32: No. 6, Article 4. Available at: https://journals.tubitak.gov.tr/physics/vol32/iss6/4
