Relation between Magnetism and Electronic Structure of 3d-Metal Alloys in the Stoner Theory and in the DSFT

We study the dependence of magnetic properties: Curie temperature, mean and local magnetic moments—on the type of crystal lattice and average number of d electrons per atom. The problem is considered in two approximations: with spin fluctuations not taken into account, in the Stoner mean field theor...

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Bibliographic Details
Published in:Physics of metals and metallography 2024, Vol.125 (1), p.49-55
Main Authors: Melnikov, N. B., Gulenko, A. S., Reser, B. I.
Format: Article
Language:English
Subjects:
Alloys
Chemistry and Materials Science
Crystal lattices
Curie temperature
Degassing of metals
Electrical and Magnetic Properties
Electronic structure
Electrons
Ferromagnetic materials
Ferromagnetism
Fluctuation theory
Magnetic alloys
Magnetic moments
Magnetic properties
Materials Science
Mean
Mean field theory
Metallic Materials
Metals
Phase diagrams
Qualitative analysis
Spin dynamics
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Summary:We study the dependence of magnetic properties: Curie temperature, mean and local magnetic moments—on the type of crystal lattice and average number of d electrons per atom. The problem is considered in two approximations: with spin fluctuations not taken into account, in the Stoner mean field theory, and with spin fluctuations taken into account, in the dynamic spin fluctuation theory (DSFT). In the DSFT, we obtain an analogue of the Slater–Pauling curve for the mean magnetic moment at finite temperatures. Numerical results in the DSFT are in qualitative agreement with experiment: with magnetic phase diagram and dependence of magnetic moment on concentration in ferromagnetic alloys.
ISSN:0031-918X
1555-6190
DOI:10.1134/S0031918X23602275