Jürgen Eser scite author profile

We extend our recent computation of the low-energy limit of the linear O(4) Quark-Meson Model. The present analysis focuses on the transformation of the resulting effective action into a nonlinearly realized effective pion action, whose higher-derivative interaction terms are parametrized by so-called low-energy couplings. Their counterparts in the linear model are determined from the Functional Renormalization Group flow of the momentum-dependent four-pion vertex, which is calculated in a fully O(4)-symmetric approximation by including also momentum-dependent σπ interactions as well as σ self-interactions. Consequently, these higher-derivative couplings are dynamically generated solely from quark and meson fluctuations, initialized at a hadronic scale. Despite our restriction to low-energy degrees of freedom, we find that the qualitative features of the fluctuation dynamics allow us to comment on the range of validity and on appropriate renormalization scales for purely pionic effective models.

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Low-energy limit of the O(4) quark-meson model from the functional renormalization group approach

Eser

Divotgey

Mitter

et al. 2018

Phys. Rev. D

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We compute the low-energy limit of the O(4)-symmetric quark-meson model as an effective field theory for Quantum Chromodynamics (QCD) within the Functional Renormalization Group (FRG) approach. In particular, we analyze the renormalization group flow of momentum-dependent pion self-interactions beyond the local potential approximation. The numerical results for these couplings obtained from the FRG are confronted with a recent tree-level study. Additionally, their effect on the wave-function renormalization factors and the curvature masses is investigated.

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Functional renormalization group study of the chiral phase transition including vector and axial-vector mesons

2015

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The transition in quantum chromodynamics (QCD) from hadronic matter to the quark-gluon plasma (QGP) at high temperatures and/or net-baryon densities is associated with the restoration of chiral symmetry and can be investigated in the laboratory via heavy-ion collisions. We study this chiral transition within the functional renormalization group (FRG) approach applied to the two-flavor version of the extended Linear Sigma Model (eLSM). The eLSM is an effective model for the strong interaction and features besides scalar and pseudoscalar degrees of freedom also vector and axialvector mesons. We discuss the impact of the quark masses and the axial anomaly on the order of the chiral transition. We also confirm the degeneracy of the masses of chiral partners above the transition temperature. We find that the mass of the a1 meson (ρ meson) decreases (increases) towards the chiral transition.

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Fluctuation-induced higher-derivative couplings and infrared dynamics of the quark-meson-diquark model

2020

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84‐1: Invited Paper: Advances in High Efficacy and Flexible OLED Lighting

Spindler

Kondakova

Boroson

et al. 2018

Symp Digest of Tech Papers

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Jürgen Eser

Dynamical generation of low-energy couplings from quark-meson fluctuations

Low-energy limit of the O(4) quark-meson model from the functional renormalization group approach

Functional renormalization group study of the chiral phase transition including vector and axial-vector mesons

Fluctuation-induced higher-derivative couplings and infrared dynamics of the quark-meson-diquark model

84‐1: Invited Paper: Advances in High Efficacy and Flexible OLED Lighting

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