Theory of alloy broadening of impurity electronic spectra

15 July 1981

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

Vol. 24 (2), 1137-1139
https://doi.org/10.1103/physrevb.24.1137

Abstract

The theory of inhomogeneous alloy broadening of impurity spectral lines is developed for substitutional crystalline alloys, using the embedded-cluster method. Model calculations are presented for a defect in a tight-binding, one-state-per-atom, one-dimensional alloy crystal

A_{x} B_{1 - x}

with nearest-neighbor interactions.

Keywords

This publication has 11 references indexed in Scilit:

Pressure-Temperature Phase Diagrams of Ferroelectric {N(CH₃)₄}₂CoCl₄ and {N(CH₃)₄}₂ZnCl₄
Journal of the Physics Society Japan, 1980
Local-environment effect on the nitrogen bound state in $Ga P_{x} {As}_{1 - x}$ alloys: Experiments and coherent-potential approximation theory
Physical Review B, 1980
Theory of alloys. I. Embedded-cluster calculations of phonon spectra for a one-dimensional binary alloy
Physical Review B, 1979
Spectra of Ternary Alloys
Physical Review Letters, 1979
Multishell method: Exact treatment of a cluster in an effective medium
Physical Review B, 1977
The theory and properties of randomly disordered crystals and related physical systems
Reviews of Modern Physics, 1974
Persistence and Amalgamation Types in the Electronic Structure of Mixed Crystals
Journal of the Physics Society Japan, 1968
Coherent-Potential Model of Substitutional Disordered Alloys
Physical Review B, 1967
Vibrational Properties of Imperfect Crystals with Large Defect Concentrations
Physical Review B, 1967
Critical Points and Lattice Vibration Spectra
Physical Review B, 1956

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