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arxiv: 0906.0805 · v1 · pith:6Y5DQR4Tnew · submitted 2009-06-04 · ❄️ cond-mat.mtrl-sci

Minimum free-energy path of homogenous nucleation from the phase-field equation

classification ❄️ cond-mat.mtrl-sci
keywords free-energyequationmfepminimumnucleationnucleuspathphase-field
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The minimum free-energy path (MFEP) is the most probable route of the nucleation process on the multidimensional free-energy surface. In this study, the phase-field equation is used as a mathematical tool to deduce the minimum free-energy path (MFEP) of homogeneous nucleation. We use a simple square-gradient free-energy functional with a quartic local free-energy function as an example and study the time evolution of a single nucleus placed within a metastable environment. The time integration of the phase-field equation is performed using the numerically efficient cell-dynamics method. By monitoring the evolution of the size of the nucleus and the free energy of the system simultaneously, we can easily deduce the free-energy barrier as a function of the size of the sub- and the super-critical nucleus along the MFEP.

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