ELECTRONIC STRUCTURE AND PHASE DIAGRAMS OF BINARY ALLOYS WITH COMPLEX LATTICES.

Abstract

It is shown that the structures of the ordered phases in binary alloys with complex Ising lattice can be determined theoretically by means of the static concentration wave (s. c. w. ) method and pseudopotential theory. The expression which gives the relationship between the phenomenological parameters of the s. c. w. method and the energy - wavenumber characteristic of the pseudopotential theory is obtained. The superstructures which may be stable with respect to the formation of an antiphase boundary structure is obtained for the hexagonal close-packed lattice.

Original language	English
Pages (from-to)	379-385
Number of pages	7
Journal	Physica Status Solidi (B) Basic Research
Volume	68
Issue number	1
Publication status	Published - Mar 1975

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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Zhorovkov, M. F., Fuks, D. L., & Panin, V. E. (1975). ELECTRONIC STRUCTURE AND PHASE DIAGRAMS OF BINARY ALLOYS WITH COMPLEX LATTICES. Physica Status Solidi (B) Basic Research, 68(1), 379-385.

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abstract = "It is shown that the structures of the ordered phases in binary alloys with complex Ising lattice can be determined theoretically by means of the static concentration wave (s. c. w. ) method and pseudopotential theory. The expression which gives the relationship between the phenomenological parameters of the s. c. w. method and the energy - wavenumber characteristic of the pseudopotential theory is obtained. The superstructures which may be stable with respect to the formation of an antiphase boundary structure is obtained for the hexagonal close-packed lattice.",

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AB - It is shown that the structures of the ordered phases in binary alloys with complex Ising lattice can be determined theoretically by means of the static concentration wave (s. c. w. ) method and pseudopotential theory. The expression which gives the relationship between the phenomenological parameters of the s. c. w. method and the energy - wavenumber characteristic of the pseudopotential theory is obtained. The superstructures which may be stable with respect to the formation of an antiphase boundary structure is obtained for the hexagonal close-packed lattice.

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