abstract

• The fundamental understanding of the dynamic and transport properties of liquids is crucial for the better processing of most materials. The usefulness of this understanding increases when it involves general scaling rules, such as the concept of the hard-sphere dynamic universality class, which provides a unifying scaling of the dynamics of soft-sphere repulsive systems. A relevant question is how far this concept extends to systems that also involve attractive interactions. To answer this question, in this work we performed systematic molecular and Brownian dynamics simulations with the Lennard-Jones system in a wide range of temperatures and densities and verify the extent to which its static and dynamic properties map onto those of the hard-sphere system. We determine that in most of the fluid regime, the Lennard-Jones liquid exhibits the same dynamic equivalence with the hard-sphere system as most purely repulsive fluids, thus establishing the degree of its inclusion in the hard-sphere dynamic universality class. © 2021 American Physical Society.

authors

• Chávez Páez Martín
• López Flores Leticia
• Medina Noyola Magdaleno
• Olais-Govea J.M.

publication date

• 2021-01-01

funding provided via

• Northwestern University, NU; Consejo Nacional de Ciencia y Tecnología, CONACYT: CB-A1-S-22362, CF-2019-731759  Grant

published in

• Physical Review E  Journal

keywords

• Equivalence classes; Attractive interactions; Brownian dynamics simulations; Dynamic equivalence; Dynamic universality class; Hard sphere systems; Lennard-Jones liquids; Lennard-Jones systems; Repulsive systems; Spheres; article; simulation

Digital Object Identifier (DOI)

• 10.1103/PhysRevE.103.L050602

PubMed ID

• 34134327

start page

end page

volume

• 103

issue

• 5