Confinement-deconfinement transition in SU(3)-Higgs theory
Abstract
We study lattice cutoff effects on the confinement-deconfinement transition and the Z3 symmetry in SU(3)-Higgs theory in 3+1 dimensions. The Higgs in this study is a complex triplet with vanishing bare mass and quartic coupling. The lattice cutoff is regulated by varying the number of temporal lattice sites, Nτ. Our results show that the nature of the confinement-deconfinement transition depends on Nτ. For Nτ=2 the transition is found to be the end point of a first-order transition and is first order for Nτ 3. The distributions of the Polyakov loop and other observables, sensitive to the Z3 symmetry, show that the strength of Z3 explicit breaking decreases with Nτ. Up to T 2Tc, the free energy difference between Z3 states decreases with Nτ, suggesting the realization of Z3 symmetry in the continuum limit.
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