Liquid–vapour interface varying the softness and range of the interaction potential

Abstract

Molecular dynamics simulations in a canonical ensemble were carried out for simple fluids. The inter-particles interaction law is described by the Morse function plus a repulsive term. This kind of combination allows to tune the repulsive term of the interaction function by fitting the range of the attractive well and vice versa. As a relevant result, we show that for an inhomogeneous system the particle softness affects the vapour pressure, the surface tension and also the equilibrium densities of a simple fluid. Lower numerical values for these same properties were obtained by using a more repulsive interaction potential. The differences among these same interfacial properties are bigger when the range of the attractive interaction is longer. The surface tension written in terms of the corresponding critical parameters, such as scaled surface tension, was plotted for different softness degrees. And from this comparison, a unique master curve was not found.