Thermodynamic Potential of the Polyakov Loop in SU(3) Quenched Lattice QCD
Abstract
Using SU(3) lattice QCD, we study for the first time the effective potential of the Polyakov loop P at finite temperature, i.e., the thermodynamic potential, in the field-theoretical way. In the framework of the reweighting method in lattice QCD, we express the effective potential V eff( P ) using the expectation value without a source term. In particular, we consider the most difficult and interesting case of vacuum coexistence at the critical temperature Tc. We adopt SU(3) quenched lattice QCD on 483 × 6 at β= 5.89379, which corresponds exactly to the critical temperature Tc of the deconfinement phase transition, and use 200,000 Monte Carlo configurations. After categorizing the gauge configurations into one Z3-symmetric and three Z3-broken vacua each, we perform a vacuum-associated reweighting method, using the gauge configurations around each vacuum separately. Finally, we obtain the Polyakov-loop effective potential, which is well depicted around the Z3-symmetric and Z3-broken vacua.
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