Precise Simulation of Near-critical Fluid Coexistence

Abstract

We present a novel method to derive liquid-gas coexisting densities, (T), from grand canonical simulations (without knowledge of or criticality class). The minima of QL< m2 >L2/< m4>L in an L×L ×L box with m = - <>L are used to generate recursively an unbiased universal finite-size scaling function. Monte Carlo data for a hard-core square-well fluid and for the restricted primitive model electrolyte yield to 1-2% of down to 1 part in 104-103 of (and confirm well Ising character). Pressure mixing in the scaling fields is unequivocally revealed and indicates Yang-Yang ratios Rμ = -0.044 and 0.26 for the two models, respectively.

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