Вплив атомних заміщень на електронну структуру сплавів Pt1 – xNixMnSb (x = 0,0–1,0)

Вплив атомних заміщень на електронну структуру сплавів Pt1 – xNixMnSb (x = 0,0–1,0)

Using zone calculations in the FLAPW (the full-potential linearized augmented-plane-waves) model, the information on the energy, charge, and spin characteristics of Pt1-xNixMnSb alloys (x = 0.0÷1.0) is obtained. It is established that, with an increase in the concentration of nickel atoms in Pt1-xNi...

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Bibliographic Details
Date:2022
Main Authors: Uvarov, V.N., Uvarov, N.V., Zagorodnii, V.V., Kruk, A.S.
Format: Article
Language:English
Published: Publishing house "Academperiodika" 2022
Subjects:
зоннi розрахунки
сплави Гойслера
електронна будова
магнiтнi моменти
поляризованi електроннi стани
спiнтронiка
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2022129
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Journal Title:Ukrainian Journal of Physics

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Ukrainian Journal of Physics
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Summary:Using zone calculations in the FLAPW (the full-potential linearized augmented-plane-waves) model, the information on the energy, charge, and spin characteristics of Pt1-xNixMnSb alloys (x = 0.0÷1.0) is obtained. It is established that, with an increase in the concentration of nickel atoms in Pt1-xNixMnSb alloys, the interatomic space density of electrons decreases, covalent bonds weaken, and the cohesive energies of the alloys decrease. The dominant contributions to the formation of magnetic moments in Pt1-xNixMnSb alloys are made by 3d electrons of manganese atoms. In alloys with x ≥ 0.50, the complete polarization of Fermi electrons is registered, which converts these alloys to a half-metallic state.

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