How reliable is the HMSA integral equation for the pair structure of supercooled and amorphous mixtures?
- 1 March 1994
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 81 (4), 1011-1016
- https://doi.org/10.1080/00268979400100671
Abstract
Accurate molecular dynamics (MD) calculations on highly asymmetric Lennard-Jones mixtures have been performed to check in rather extreme cases the ability of the self-consistent HMSA integral equation to predict the pair correlations in supercooled and glassy mixtures. We find that, in the supercooled region, the HMSA is a reasonable approximation for the structural properties and thermodynamic properties, but systematic deviations from MD data appear when the glass transition is approached.Keywords
This publication has 11 references indexed in Scilit:
- Molecular-dynamics investigation of tracer diffusion in a simple liquidPhysical Review A, 1992
- A modified hypernetted-chain integral equation for the supercooled liquid of inverse power potentialsJournal of Non-Crystalline Solids, 1990
- Soft-sphere model for the glass transition in binary alloys: Pair structure and self-diffusionPhysical Review A, 1987
- A comparison of perturbative schemes and integral equation theories with computer simulations for fluids at high pressuresThe Journal of Chemical Physics, 1986
- Self-consistent integral equations for fluid pair distribution functions: Another attemptThe Journal of Chemical Physics, 1986
- New, thermodynamically consistent, integral equation for simple fluidsPhysical Review A, 1984
- A crossover integral equation for the structure of simple liquidsThe Journal of Chemical Physics, 1984
- Solutions of the reference-hypernetted-chain equation with minimized free energyPhysical Review A, 1983
- A new method of solving the liquid structure integral equationsMolecular Physics, 1979
- Theory of simple classical fluids: Universality in the short-range structurePhysical Review A, 1979