Liquid-gas phase behaviour of an argon-like fluid modelled by the hard-core two-Yukawa potential
نویسنده
چکیده
We study a model for an argon-like fluid parameterised in terms of a hard-core repulsion and a two-Yukawa potential. The liquid-gas phase behaviour of the model is obtained from the thermodynamically self-consistent Ornstein-Zernike approximation (SCOZA) of Høye and Stell, the solution of which lends itself particularly well to a pair potential of this form. The predictions for the critical point and the coexistence curve are compared to new high resolution simulation data and to other liquid-state theories, including the hierarchical reference theory (HRT) of Parola and Reatto. Both SCOZA and HRT deliver results that are considerably more accurate than standard integral-equation approaches. Among the versions of SCOZA considered, the one yielding the best agreement with simulation successfully predicts the critical point parameters to within 1%. Typeset using REVTEX
منابع مشابه
Liquid-gas phase transition to first order of an argon-like fluid modeled by the hard-core similar Sutherland potential
In this paper, an argon-like canonical system is studied. We introduce five hypothesis to deal with the total potential of the system. Then the balanced liquid-gas coexistence phenomenon is analyzed. Good equations of state and phase diagram are given. PACS Codes: 05.20.Jj; 05.70.-a; 05.70.Ce; 05.70.Fh.
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