A self-consistent mean field calculation of the phenomenological coefficients in a multicomponent alloy with high jump frequency ratios
Résumé
We present an improvement of the self-consistent mean field (SCMF) approximation of the L.ij, which extends its applications to alloys presenting high jump frequency ratios. The theory uses a vacancy-atom exchange model which depends on temperature and local composition through thermodynamic and kinetic parameters. Kinetic correlations due to the vacancy mechanism are represented by a time dependent effective Hamiltonian. In the case of high jump frequency ratios it is shown that long return paths of the vacancy need to be considered, which is shown to be equivalent to introduce many-body long-range effective interactions. We compare this theory to existing formalisms and Monte Carlo simulations for systems both without and with atomic interactions.
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