Electronic structure of disordered alloys—Generalized coherent-potential approximation and effects of environment

15 April 1975

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 11 (8) , 2831-2835
https://doi.org/10.1103/physrevb.11.2831

Abstract

The renormalized propagator formalism of Niizeki is used to calculate local-environment effects on the density of states of disordered alloys. Random transfer integrals of Shiba's type are included in the theory. Numerical results of density of states of a simple cubic binary alloy

A_{x} B_{1 - x}

are presented.

Keywords

This publication has 19 references indexed in Scilit:

Generalized coherent-potential method for disordered systems
Physical Review B, 1974
Self-Consistent Cluster Theory of Disordered Alloys
Physical Review B, 1973
The condition for the equivalence of localised state and Bloch state expansions in generalized coherent potential approximations
Journal of Physics C: Solid State Physics, 1973
Random Transfer Integrals and the Electronic Structure of Disordered Alloys
Physical Review Letters, 1973
Generalized Cluster Theory of the Coherent-Potential Approximations for Disordered Systems
Physical Review B, 1973
Problems in Strong-Scattering Binary Alloys
Physical Review Letters, 1973
Comparison of the Average- $t$ -Matrix and Coherent-Potential Approximations in Substitutional Alloys
Physical Review B, 1971
Generalized Locator—Coherent-Potential Approach to Binary Alloys
Physical Review B, 1971
Self-Consistent Theory of Clusters in Disordered Alloys
Physical Review Letters, 1971
Cluster Theory of the Electronic Structure of Disordered Systems
Physical Review B, 1971