Si(x)Ge1-x alloys are studied with a new method based on density-functional theory and Monte Carlo sampling. Using perturbation theory with respect to the virtual crystal, we are able to map the alloy onto a lattice gas with long-range interactions, which are determined from first principles. Monte Carlo simulations show that Si(x)Ge1-x is a model random alloy with a miscibility gap below almost-equal-to 170 K. The bond-length distribution displays three well-defined peaks whose positions depend on composition, but not on temperature. The resulting lattice parameter follows Vegard's law very closely.
Structure and thermodynamics of SixGe1−x alloys from ab initio Monte Carlo simulations / De Gironcoli, S.; Giannozzi, P.; Baroni, S.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 66:16(1991), pp. 2116-2119. [10.1103/PhysRevLett.66.2116]
Structure and thermodynamics of SixGe1−x alloys from ab initio Monte Carlo simulations
De Gironcoli, S.;Giannozzi, P.;Baroni, S.
1991-01-01
Abstract
Si(x)Ge1-x alloys are studied with a new method based on density-functional theory and Monte Carlo sampling. Using perturbation theory with respect to the virtual crystal, we are able to map the alloy onto a lattice gas with long-range interactions, which are determined from first principles. Monte Carlo simulations show that Si(x)Ge1-x is a model random alloy with a miscibility gap below almost-equal-to 170 K. The bond-length distribution displays three well-defined peaks whose positions depend on composition, but not on temperature. The resulting lattice parameter follows Vegard's law very closely.| File | Dimensione | Formato | |
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