Phase behavior of binary hard-sphere mixtures from perturbation theory

Using a first-order perturbation theory, we have studied the phase diagram of a binary mixture of hard spheres for different values of the size ratio. Recent models for the two-body depletion potential between large spheres a re used to take into account the role of the small spheres. The theory pred icts a complex phase diagram including a fluid-solid transition at high pac king fraction of small spheres, metastability of fluid-fluid demixing, an i sostructural solid-solid transition at high packing fraction of the large s pheres for sufficiently small values of the size ratio q of the spheres, an d the tendency to sticky-sphere behavior in the limit q-->0. The agreement with recent simulation results is quite good. We also show that this phenom enology was already implicit in the pioneering work of Asakura and Oosawa. [S1063-651X(99)10009-6].