2134/16036
Paul Hopkins
Andrew Archer
Robert Evans
Pair-correlation functions and phase separation in a two-component point Yukawa fluid
2014
Loughborough University
untagged
2014-10-09 13:33:58
article
https://repository.lboro.ac.uk/articles/journal_contribution/Pair-correlation_functions_and_phase_separation_in_a_two-component_point_Yukawa_fluid/9386123
We investigate the structure of a binary mixture of particles interacting via purely repulsive point Yukawa pair potentials with a common inverse screening length λ. Using the hypernetted chain closure to the Ornstein-Zernike equations, we find that for a system with "ideal" (Berthelot mixing rule) pair-potential parameters for the interaction between unlike species, the asymptotic decay of the total correlation functions crosses over from monotonic to damped oscillatory on increasing the fluid total density at fixed composition. This gives rise to a Kirkwood line in the phase diagram. We also consider a "nonideal" system, in which the Berthelot mixing rule is multiplied by a factor (1+δ). For any δ0 the system exhibits fluid-fluid phase separation and remarkably the ultimate decay of the correlation functions is now monotonic for all (mixture) state points. Only in the limit of vanishing concentration of either species does one find oscillatory decay extending to r=∞. In the nonideal case the simple random-phase approximation provides a good description of the phase separation and the accompanying Lifshitz line. © 2006 American Institute of Physics.