Finite-size excess-entropy scaling for simple liquids

Abstract

We introduce and validate a finite-size two-body excess entropy integral equation. By using analytical arguments and computer simulations of prototypical simple liquids, we show that the excess entropy s2 exhibits a finite-size scaling with the inverse of the linear size of the simulation box. Since the self-diffusivity coefficient D* displays a similar finite-size effect, we show that the scaling entropy relation D*=A(α s2) also depends on the simulation box size. By extrapolating to the thermodynamic limit, we report values for the coefficients A and α that agree well with values available in the literature. Finally, we find a power law relation between the scaling coefficients for D* and s2, suggesting a constant viscosity to entropy ratio.