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The tension of a curved surface from simulation.

The Journal of chemical physics (2012-12-27)
Alexander J Sodt, Richard W Pastor
要旨

This paper demonstrates a method for calculating the tension of a system with a curved interface from a molecular dynamics simulation. To do so, the pressure of a subset of the system is determined by applying a local (virtual) mechanical deformation, fitting the response to that of a bulk fluid, and then using the Young-Laplace equation to infer the tension of the interface. The accuracy of the method is tested by calculating the local pressure of a series of water simulations at various external pressures. The tension of a simulated curved octane-water interface is computed with the method and compares well with the planar tension (≈ 46.7 dyn/cm). Finally, an ambiguity is resolved between the Harasima and Irving-Kirkwood methods of calculating the local pressure as a means for computing the tension.

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Sigma-Aldrich
オクタン, reagent grade, 98%
Sigma-Aldrich
オクタン, anhydrous, ≥99%
Sigma-Aldrich
オクタン, electronic grade, ≥99.999% metals basis, ≥99% (CP)
Supelco
オクタン, analytical standard