Liquid-vapor transition of systems with mean field universality class

Abstract

We have considered a system where the interaction, v(r) = vIS(r) + xi2 vMF(r), is given as a linear combination of two potentials, each of which being characterized with a well-defined critical behavior: for vIS(r) we have chosen the potential of the restricted primitive model which is known to belong to the Ising 3D (IS) universality class, while for vMF(r) we have considered a long-range interaction in the Kac-limit, displaying mean field (MF) behavior. We study the performance of two theoretical approaches and of computer simulations in the critical region for this particular system and give a detailed comparison between theories and simulation of the critical region and the location of the critical point. Both, theory and simulation give evidence that the system belongs to the MF universality class for any positive value of xi and that it shows only non-classical behavior for xi=0. While in this limiting case theoretical approaches are known to fail, we find good agreement for the critical properties between the theoretical approaches and the simulations for xi2 larger than 0.05.

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