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Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12128/8451
Title: Band structure and magnetic properties of Do3 type Fe3-xVxAl alloys : Super cel approach
Authors: Deniszczyk, Józef
Borgieł, Władysław
Keywords: teoria transportu elektronicznego; mechanizmy rozpraszania; elektroniczne przewodzenie w metalach i stopach; metale ziem rzadkich; stopy; gęstość elektronowa stanów; struktura pasmowa krystalicznych ciał stałych
Issue Date: 2000
Citation: Acta Physica Polonica A, Vol. 98, nr 5 (2000), s. 551-554
Abstract: The electronic structure of Fe 3 -xVxAl alloys was calculated using the super-cell methodology of alloy modeling. The concentration range of x = 0.0=1.0 was investigated. For a concentration of x = 0.0625 the energy based analysis reveals that vanadium prefers to replace the Fe atom at sites with the octahedral coordination. It was found that the iron atoms coordinated by the eight nearest-neighbor Fe atoms preserve their high magnetic moment up to a concentration of x = 0.9375 even though the average total magnetic moment goes to zero. The relatively high ( ≈ —1.0μB) negative magnetic moment of V remains constant up to x 0.5. In the concentration range of x = 0.75 􀁹 0.9375 the gap at εF of the minority density of states is observed while the majority density of states displays a sharp peak structure at the Fermi energy. This feature suggests the heavy-fermion behavior of the Fe2VAl compound.
URI: http://hdl.handle.net/20.500.12128/8451
ISSN: 0587-4246
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