Raman Scattering, Thermal studies and Reverse Monte Carlo Simulations of an Amorphous Ge30Se70 Alloy Produced by Mechanical Alloying
Abstract
The short and intermediate range order of an amorphous Ge30Se70 alloy produced by Mechanical Alloying were studied by Reverse Monte Carlo simulations of its x-ray total structure factor, Raman scattering and differential scanning calorimetry. The simulations were used to compute the GRMCGe-Ge(r), GRMCGe-Se(r) and GRMCSe-Se(r) partial distribution functions and the SRMCGe-Ge(K), SRMCGe-Se(K) and SRMCSe-Se(K) partial structure factors. We calculated the coordination numbers and interatomic distances for the first and second neighbors and the bond-angle distribution functions Θijl(θ). The data obtained indicate that the structure of the alloy has important differences when compared to alloys prepared by other techniques. There are a high number of Se-Se pairs in the first shell, and some of the tetrahedral units formed seemed to be connected by Se-Se bridges.
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