L. Acedo
Published 2000-04-27Version 1
The continuity conditions of the radial distribution function g(r) and its close relative the cavity function y(r) are studied in the context of the Percus-Yevick (PY) integral equation for 3D square-well fluids. The cases corresponding to a well width, (w-1)*d, equal to a fraction of the diameter of the hard core, d/m, with m=1,2,3 have been considered. In these cases, it is proved that the function y(r) and its first derivative are everywhere continuous but eventually the derivative of some order becomes discontinuous at the points (n+1)d/m, n=0,1,... . The order of continuity (the highest order derivative of y(r) being continuous at a given point) is found to be proportional to n in the first case (m=1) and to 2*n in the other two cases (m=2,3), for large values of n. Moreover, derivatives of y(r) up to third order are continuous at r=d and r=w*d for w=3/2 and w=4/3 but only the first derivative is continuous for w=2. This can be understood as a non-linear resonance effect.
Comments: 10 pages, 2 figures
Journal: J. Stat. Phys., Vol. 99, Nos. 3/4, 707-723 (2000)
Simple and accurate expressions for radial distribution functions of hard disk and hard sphere fluids
Effect of quantum dispersion on the radial distribution function of a one-component sticky-hard-sphere fluid
On the radial distribution function of a hard-sphere fluid
