Structural properties of additive binary hard-sphere mixtures. III. Direct correlation functions

An analysis of the direct correlation functions $c_{ij} (r)$ of binary additive hard-sphere mixtures of diameters $\sigma_s$ and $\sigma_b$ (where the subscripts $s$ and $b$ refer to the "small" and "big" spheres, respectively), as obtained with the rational-function approximation method and the WM scheme introduced in previous work [S.\ Pieprzyk \emph{et al.}, Phys.\ Rev.\ E {\bf 101}, 012117 (2020)], is performed. The results indicate that the functions $c_{ss}(r)$ and $c_{bb}(r)$ in both approaches are monotonic and can be well represented by a low-order polynomial, while the function $c_{sb}(r)$ is not monotonic and exhibits a well defined minimum near $r=\frac{1}{2}(\sigma_b-\sigma_s)$, whose properties are studied in detail. Additionally, we show that the second derivative $c_{sb}''(r)$ presents a jump discontinuity at $r=\frac{1}{2}(\sigma_b-\sigma_s)$ whose magnitude satisfies the same relationship with the contact values of the radial distribution function as in the Percus-Yevick theory.