Citas bibligráficas
Mendoza, M., (2015). Cálculo de la energía total del sistema Fierro - Vanadio en la estructura BCC por método AB - Initio [Tesis, Universidad Nacional del Callao]. https://hdl.handle.net/20.500.12952/141
Mendoza, M., Cálculo de la energía total del sistema Fierro - Vanadio en la estructura BCC por método AB - Initio [Tesis]. PE: Universidad Nacional del Callao; 2015. https://hdl.handle.net/20.500.12952/141
@misc{renati/340378,
title = "Cálculo de la energía total del sistema Fierro - Vanadio en la estructura BCC por método AB - Initio",
author = "Mendoza Flores, Miguel Alberto",
publisher = "Universidad Nacional del Callao",
year = "2015"
}
In the present research work the total energy and the electronic properties (lattice parameter, magnetic moment, bulk modulus, density of states and energy bands) of the different phases ofthe system Iron-Vanadium (Fe-V) have been obtained and analyzed, in the cubic structure of body centered cubic (BCC), found with the ab-initio or first principies method called Full Potential Linearized Augmented Plane Wave (FP-LAPW) in the version of computational code WIEN2k-10; which is a method that is based on Density Functional Theory and uses as approximation for the basis set linearized augmented plane waves. It was observed that the presence of Vanadium (V) diminishes the magnetic character of Iron (Fe) in the FeV3 structure by 99% compared with magnetic character of pure Iron (Fe), and that this presence justifies the largest bulk modulus in the same structure (FeV3). Besides, through the densities of states, it was concluded that all phases ofthe system Fe-V are metals. A similar analysis to this one is found in [23], however in the latter the modified Becke-Johnson (mBJ)-LDA potential of exchange was used to improve electronic properties, while in this research the PerdewBurke-Ernzerhof (PBE) potential was used, a GGA approximation.
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