Abstract
Effects of atomic environment on distribution of magnetic moments in ferromagnetic transition-metal alloys are discussed on the basis of an itinerant-electron theory in the Hartree-Fock approximation. The significance of the relation between the atom in question and its environment is demonstrated with emphasis on the two types of free energy curve as a function of the atomic magnetic moment. A method for the self-consistent calculation of magnetic moment distributions in concentrated alloys is presented. Some results of the method applied to Fe-V and Fe-Co alloys are shown to be in good agreement with experimental measurements.
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