Friday, February 22, 2013

1302.5263 (Ulf R. Pedersen et al.)

Computing Gibbs free energy differences by interface pinning    [PDF]

Ulf R. Pedersen, Felix Hummel, Georg Kresse, Gerhard Kahl, Christoph Dellago
We propose an approach for computing the Gibbs free energy difference between phases of a material. The method is based on the determination of the average force acting on interfaces that separate the two phases of interest. This force, which depends on the Gibbs free energy difference between the phases, is computed by applying an external harmonic field that couples to a parameter which specifies the two phases. Validated first for the Lennard-Jones model, we demonstrate the flexibility, efficiency and practical applicability of this approach by computing the melting temperatures of sodium, magnesium, aluminum and silicon at ambient pressure using density functional theory. Excellent agreement with experiment is found for all four elements, except for silicon, for which the melting temperature is, in agreement with previous simulations, seriously underestimated.
View original: http://arxiv.org/abs/1302.5263

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