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Nonlocal Polyakov-Nambu-Jona-Lasinio model and imaginary chemical potential

With the aim of setting constraints for the modeling of the QCD phase diagram, the phase structure of the two-flavor Polyakov-loop extended Nambu and Jona-Lasinio (PNJL) model is investigated in the range of imaginary chemical potentials ($μ_\mathrm{I}$) and compared with available $N_f=2$ lattice QCD results. The calculations are performed using the advanced nonlocal version of the PNJL model with the inclusion of vector-type quasiparticle interactions between quarks, and with wave-function-renormalization corrections. It is demonstrated that the nonlocal PNJL model reproduces important features of QCD at finite $μ_\mathrm{I}$, such as the Roberge-Weiss (RW) periodicity and the RW transition. Chiral and deconfinement transition temperatures for $N_f=2$ turn out to coincide both at zero chemical potential and at finite $μ_\mathrm{I}$. Detailed studies are performed concerning the RW endpoint and its neighborhood where a first-order transition occurs.

preprint2011arXivOpen access
Kouji KashiwaThomas HellWolfram Weise
hep-ph
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Kouji KashiwaThomas HellWolfram Weise

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