Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/5723
Título
An adaptive genetic algorithm approach for predicting magnet-ic structure suitable for high-performance permanent magnet development
Publicado en
2017 IEEE International Magnetics Conference (INTERMAG)
Editorial
IEEE
Fecha de publicación
2017-08
ISSN
2150-4601
DOI
10.1109/INTMAG.2017.8007671
Descripción
Trabajo presentado en: International Conference on Magnetics (INTERMAG), 2017
Resumo
Summary form only given. In this work, we present a general overview, analysis and software implementation of a particular AGA, which has been proposed for discovering new RE-free magnetic crystal phases in the context of the EU-H2020 NOVAMAG project. The workflow diagram related to the Modelling Data Elements (MODA) of the magnetic crystal structure calculation based on AGA was shown. In particular, we make use of an AGA, implemented through USPEX and VASP codes, to predict new magnetic crystal phases, where those structures with better magnetic properties for a permanent magnet are selected and analyzed in more detail. Such a methodology has been preliminary compared to well-known experimentally reported properties compounds, showing an excellent agreement. In addition, we show recent results predicted by AGA in CoFe 2n X (n=1,2,3,4,5; where X=C, P, Hf, Zr, ...), where we found compounds with many metastable structures which fulfill the initial requirements (negative enthalpy of formation ΔHF<;0, high saturation magnetization μ 0 M S >1T and non-cubic lattice system) for permanent magnet development.
Palabras clave
Crystals
Saturation magnetization
Permanent magnets
Optimization
Enthalpy
Magnetic analysis
Compounds
Materia
Física
Physics
Versión del editor
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