English

Dual meson condensates in the Polyakov-loop extended linear sigma model

High Energy Physics - Phenomenology 2021-03-03 v2

Abstract

Dual meson condensates as possible order parameters for deconfinement are investigated in a Polyakov-loop enhanced linear sigma model of QCD at both zero and finite isospin chemical potential μI\mu_I. We find that the rapid rise of the dual sigma condensate (corresponding to the dressed Polyakov-loop) with TT is driven by the chiral transition, no matter whether the Polyakov-loop dynamics is included or not. For μI>mπ/2\mu_I>m_\pi/2, the dual sigma condensate shows abnormal thermal behavior which even decreases with TT below the melting temperature TcI3T_c^{I_3} of pion superfluidity; On the other hand, even the dual pion condensate always increases with TT, its maximum slope locates exactly at TcI3T_c^{I_3} rather than the deconfinement temperature TcPT_c^{P} determined by the Polyakov-loop. All these are qualitatively consistent with the previous results obtained in the Nambu-Jona-Lasinio type models. The dual vector meson condensate for μI>mπ/2\mu_I>m_\pi/2 is also calculated. This quantity is more sensitive to the chiral transition when taking into account the Dirac-sea contribution. Our study further suggests that it should be cautious to use dual observables to indicate the deconfinement transition, especially in QCD models.

Keywords

Cite

@article{arxiv.1705.09953,
  title  = {Dual meson condensates in the Polyakov-loop extended linear sigma model},
  author = {Zhao Zhang and Haipeng Lu},
  journal= {arXiv preprint arXiv:1705.09953},
  year   = {2021}
}

Comments

9 pages,7 figures, discussions added, references added, typos corrected

R2 v1 2026-06-22T20:01:30.251Z