Novel first-order phase transition and critical points in SU(3) Yang-Mills theory with spatial compactification
Abstract
We investigate the thermodynamics and phase structure of SU(3) Yang-Mills theory on T2×R2 in Euclidean spacetime in an effective-model approach. The model incorporates two Polyakov loops along two compactified directions as dynamical variables, and is constructed to reproduce thermodynamics on T2×R2 measured on the lattice. The model analysis indicates the existence of a novel first-order phase transition on T2×R2 in the deconfined phase, which terminates at critical points that should belong to the two-dimensional Z2 universality class. We argue that the interplay of the Polyakov loops induced by their cross term in the Polyakov-loop potential is responsible for the manifestation of the first-order transition.
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