Open AccessDeviations from Vegard’s law in ternary III-V alloys
Author(s) -
Samuel T. Murphy,
A. Chroneos,
Chao Jiang,
Udo Schwingenschlögl,
Robin W. Grimes
Publication year - 2010
Publication title -
physical review b
Language(s) - English
Resource type - Journals
eISSN - 1538-4489
pISSN - 1098-0121
DOI - 10.1103/physrevb.82.073201
Subject(s) - ternary operation , thermodynamics , linear interpolation , condensed matter physics , materials science , interpolation (computer graphics) , alloy , volume (thermodynamics) , binary number , physics , mathematics , mathematical analysis , metallurgy , polynomial , motion (physics) , arithmetic , classical mechanics , computer science , programming language
Vegard’s law states that, at a constant temperature, the volume of an alloy can be determined from a linear interpolation of its constituent’s volumes. Deviations from this description occur such that volumes are both greater and smaller than the linear relationship would predict. Here we use special quasirandom structures and density functional theory to investigate such deviations for MxN1−xAs ternary alloys, where M and N are group III species (B, Al, Ga, and In). Our simulations predict a tendency, with the exception of AlxGa1−xAs, for the volume of the ternary alloys to be smaller than that determined from the linear interpolation of the volumes of the MAs and BAs binary alloys. Importantly, we establish a simple relationship linking the relative size of the group III atoms in the alloy and the predicted magnitude of the deviation from Vegard’s law
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