Chiral phase transition scenarios from the vector meson extended Polyakov quark meson model

Kovács, Péter and Wolf, György (2015) Chiral phase transition scenarios from the vector meson extended Polyakov quark meson model. ACTA PHYSICA POLONICA B PROCEEDINGS SUPPLEMENT, 8 (2). pp. 335-340. ISSN 1899-2358

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Abstract

Chiral phase transition is investigated in an SU (3)L ×SU (3)R symmet- ric vector meson extended linear sigma model with additional constituent quarks and Polyakov loops (extended Polyakov quark meson model). The parameterization of the Lagrangian is done at zero temperature in a hybrid approach, where the mesons are treated at tree-level, while the constituent quarks at 1-loop level. The temperature and baryochemical potential de- pendence of the two assumed scalar condensates are calculated from the hybrid 1-loop level equations of states. The order of the phase transition along the T = 0 and μB = 0 axes are determined for various parameteriza- tion scenarios. We find that in order to have a first order phase transition at T = 0 as a function of μB a light isoscalar particle is needed.

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