Phase transitions triggered by dumbbell equipotential hypersurfaces

Abstract

In a recent paper a toy model (called hypercubic model) undergoing a first-order Z2 symmetry breaking phase transition (SBPT) has been introduced. The hypercubic model was inspired by the topological hypothesis, according to which a phase transition may be entailed by suitable topological changes of the equipotential hypersurfaces v of configuration space. The v's of the hypercubic model have a single topological change, which, under further particular hypotheses of geometric nature, entails the Z2-SBPT. In this paper we introduce an extended version of the hypercubic model in which no topological change in the v's is present anymore, but nevertheless the Z2-SBPT occurs the same. We introduce a geometric property of the v's (i.e. dumbbell v's suitably defined) that is sufficient to entail a Z2-SBPT regardless their topology. The paper ends by applying the picture of the dumbbell v's to a physical model, i.e. the mean-field φ4 model.