A smooth cutoff formulation of the hierarchical reference theory (HRT) is developed and applied to a Yukawa fluid. The HRT equations are derived and numerically solved leading to the expected renormalization group structure in the critical region, nonclassical critical exponents and scaling laws, a convex free energy in the whole phase diagram (including the two-phase region), finite compressibility at coexistence, together with a fully satisfactory comparison with available numerical simulations. This theory, which also guarantees the correct short range behavior of two body correlations, represents a major improvement over the existing liquid-state theories.
Liquid-vapor transition from a microscopic theory : beyond the Maxwell construction / A. Parola, D.E. Pini, L. Reatto. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 100:16(2008 Apr 25), pp. 165704.165704.1-165704.165704.4. [10.1103/PhysRevLett.100.165704]
Liquid-vapor transition from a microscopic theory : beyond the Maxwell construction
D.E. PiniSecondo
;L. ReattoUltimo
2008
Abstract
A smooth cutoff formulation of the hierarchical reference theory (HRT) is developed and applied to a Yukawa fluid. The HRT equations are derived and numerically solved leading to the expected renormalization group structure in the critical region, nonclassical critical exponents and scaling laws, a convex free energy in the whole phase diagram (including the two-phase region), finite compressibility at coexistence, together with a fully satisfactory comparison with available numerical simulations. This theory, which also guarantees the correct short range behavior of two body correlations, represents a major improvement over the existing liquid-state theories.
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