Thermodynamic geometry of the Gaussian core model fluid
Abstract
The three-dimensional Gaussian core model (GCM) for soft-matter systems has repulsive interparticle interaction potential φ (r) = \, exp[ -(r/σ)2 ], with r the distance between a pair of atoms, and the positive constants and σ setting the energy and length scales, respectively. φ (r) is mostly soft in character, without the typical hard core present in fluid models. We work out the thermodynamic Ricci curvature scalar R for the GCM, with particular attention to the sign of R, which, based on previous results, is expected to be positive/negative for microscopic interactions repulsive/attractive. Over most of the thermodynamic phase space, R is found to be positive, with values of the order of σ3. However, for low densities and temperatures, the GCM potential takes on the character of a hard-sphere repulsive system, and R is found to have an anomalous negative sign. Such a sign was also found earlier in inverse power law potentials in the hard-sphere limit, and seems to be a persistent feature of hard-sphere models.
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