In this work, thermodynamical properties of a two-dimensional (21)) Lennard-Jones (L J) fluid are studied. Here, to increase the accuracy of our theoretical calculations, the correlation functions in three-partic...In this work, thermodynamical properties of a two-dimensional (21)) Lennard-Jones (L J) fluid are studied. Here, to increase the accuracy of our theoretical calculations, the correlation functions in three-particle level (triplet) are applied. To obtain the triplet correlation functions, the Attard's source particle method is extended to 21) systems. In the Attard's procedure, the inhomogeneous Ornstein Zernike (OZ) equation is solved using the Treizenberg Zwanzwig (TZ) expression and a closure relation like the hy2ernetted-chain (HNC) approximation. In the present work, we also have performed the Monte Carlo (MC) simulation. The theoretical results are in fairly agreement with the MC simulation. Also, our results show that the approach proposed here is suitable to study the 2D LJ fluid.展开更多
文摘In this work, thermodynamical properties of a two-dimensional (21)) Lennard-Jones (L J) fluid are studied. Here, to increase the accuracy of our theoretical calculations, the correlation functions in three-particle level (triplet) are applied. To obtain the triplet correlation functions, the Attard's source particle method is extended to 21) systems. In the Attard's procedure, the inhomogeneous Ornstein Zernike (OZ) equation is solved using the Treizenberg Zwanzwig (TZ) expression and a closure relation like the hy2ernetted-chain (HNC) approximation. In the present work, we also have performed the Monte Carlo (MC) simulation. The theoretical results are in fairly agreement with the MC simulation. Also, our results show that the approach proposed here is suitable to study the 2D LJ fluid.
