Thermodynamic curvature for a two-parameter spin model with frustration

Abstract

Microscopic models of realistic thermodynamic systems usually involve a number of parameters, not all of equal macroscopic relevance. We examine a decorated (1+3) Ising spin chain containing two microscopic parameters: a "stiff" K mediating the long-range interactions, and a "sloppy" J operating within local spin groups. K dominates the macroscopic behavior, and varying J has weak effect except in regions where J brings about transitions between phases through its conditioning of the local spin groups with which K interacts. We calculate the heat capacity CH, the magnetic susceptibility T, and the thermodynamic curvature R. For large |J/K|, we identify four magnetic phases: ferromagnetic, antiferromagnetic, and two ferrimagnetic ones, according to the signs of K and J. We argue that for characterizing these phases, the strongest picture is offered by the thermodynamic geometric invariant R, proportional to the correlation length . This picture has correspondences to other cases, such as fluids.