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QCD phase diagram from chiral symmetry restoration: analytic approach at high and low temperature using the Linear Sigma Model with Quarks

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arxiv 1710.09007 v2 pith:QP2MCVQZ submitted 2017-10-24 hep-ph nucl-th

QCD phase diagram from chiral symmetry restoration: analytic approach at high and low temperature using the Linear Sigma Model with Quarks

classification hep-ph nucl-th
keywords chemicalpotentialhighmodelpointquarksigmatemperature
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We use the linear sigma model with quarks to study the QCD phase diagram from the point of view of chiral symmetry restoration. We compute the leading order effective potential for high and low temperatures and finite quark chemical potential, up to the contribution of the ring diagrams to account for the plasma screening effects. We fix the values of the model couplings using physical values for the input parameters such as the vacuum pion and sigma masses, the critical temperature at vanishing quark chemical potential and the conjectured end point value of the baryon chemical potential of the transition line at vanishing temperature. We also make the analysis for the same input parameters but with vanishing pion mass. We find that the critical end point (CEP) is located at low temperatures and high quark chemical potentials $(315<\mu^{\text{CEP}}<349\ MeV,18< T^{\text{CEP}}<45\ MeV)$.

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  1. Chiral first order phase transition at finite baryon density and zero temperature from self-consistent pole masses in the linear sigma model with quarks

    hep-ph 2026-04 unverdicted novelty 5.0

    In the two-flavor linear sigma model with quarks, the chiral phase transition at T=0 is first order and occurs at a quark chemical potential equal to the vacuum quark mass.