Direct calculation of the hard-sphere crystal/melt interfacial free energy
Abstract
We present a direct calculation by molecular-dynamics computer simulation of the crystal/melt interfacial free energy, γ, for a system of hard spheres of diameter σ. The calculation is performed by thermodynamic integration along a reversible path defined by cleaving, using specially constructed movable hard-sphere walls, separate bulk crystal and fluid systems, which are then merged to form an interface. We find the interfacial free energy to be slightly anisotropic with γ = 0.62 0.01, 0.64 0.01 and 0.58 0.01 kBT/σ2 for the (100), (110) and (111) fcc crystal/fluid interfaces, respectively. These values are consistent with earlier density functional calculations and recent experiments measuring the crystal nucleation rates from colloidal fluids of polystyrene spheres that have been interpreted [Marr and Gast, Langmuir 10, 1348 (1994)] to give an estimate of γ for the hard-sphere system of 0.55 0.02 kBT/σ2, slightly lower than the directly determined value reported here.
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