2019
DOI: 10.1063/1.5109896
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Three stable phases and thermodynamic anomaly in a binary mixture of hard particles

Abstract: While the realistically modeling of the thermodynamic behavior of fluids usually demands elaborated atomistic models, much have been learned from simplified ones. Here, we investigate a model where point-like particles (with activity z 0 ) are mixed with molecules that exclude their first and second neighbors (i.e., cubes of lateral size λ = √ 3a, with activity z 2 ), both placed on the sites of a simple cubic lattice with parameter a. Only hard-core interactions exist among the particles, so that the model is… Show more

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Cited by 10 publications
(33 citation statements)
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“…From semi-analytical grand-canonical solutions of these models on Husimi lattices built with cubes (see Fig. 1a), we demonstrate that no fluid-fluid demixing occurs in such mixtures, in contrast with the 0NN-2NN one [24]. In fact, the thermodynamic behavior of the 0NN-1NN model is qualitatively the same described above for its counterpart on the square lattice.…”
Section: Introductionsupporting
confidence: 63%
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“…From semi-analytical grand-canonical solutions of these models on Husimi lattices built with cubes (see Fig. 1a), we demonstrate that no fluid-fluid demixing occurs in such mixtures, in contrast with the 0NN-2NN one [24]. In fact, the thermodynamic behavior of the 0NN-1NN model is qualitatively the same described above for its counterpart on the square lattice.…”
Section: Introductionsupporting
confidence: 63%
“…We remark that such behavior is somewhat different from that found on the square lattice, where the LMD seems to end at the tricritical point [48,49]. On the other hand, it is similar to the LMD found for the 0NN-2NN mixture on the Husimi lattice built with cubes, which also ends inside the region where the fluid is metastable [24], indicating that this can be a general feature of the LMDs of such mixtures in the cubic lattice. Regardless the location of their end points, in all these systems the LMDs divide the fluid phase in two regions: a regular one, for small z 0 , ρ 0 and x 0 , where ∂ρ T /∂z 0 < 0, as expected; and the anomalous region, for large z 0 , ρ 0 and x 0 , where ∂ρ T /∂z 0 > 0.…”
Section: Thermodynamic Behavior Of the 0nn-1nn Mixturecontrasting
confidence: 55%
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