G. Fejős scite author profile

Non-perturbative renormalisation of a general class of scalar field theories is performed at the Hartree level truncation of the 2PI effective action in the broken symmetry regime. Renormalised equations are explicitly constructed for the one-and two-point functions. The non-perturbative counterterms are deduced from the conditions for the cancellation of the overall and the subdivergences in the complete Hartree-Dyson-Schwinger equations, with a transparent method. The procedure proposed in the present paper is shown to be equivalent to the iterative renormalisation method of Blaizot et al.[1]. MotivationOne of the most popular approximation techniques in many-body quantum theory is the Hartree approximation. In quantum field theory it corresponds to the momentum independent two-loop truncation of the two-particle irreducible effective action. It is used extensively both in equilibrium [2,3,4] and out-of-equilibrium [5,6,7,8] non-perturbative investigations of phase transition phenomena. Its non-perturbative renormalisability was demonstrated as particular case of the general proof of renormalisability of the physical quantities computed in various 2PI approximations [9,1,10]. These proofs are rather involved especially in the broken symmetry phase. For this reason in many practical applications the renormalised equations are not constructed explicitly. For instance, investigations of the finite temperature phase transitions in strongly interacting matter frequently either omit zero temperature quantum corrections in the 2PI approximate equations of the relevant 1-and 2-point functions [3,4,11] or take into account vacuum fluctuations by applying some cut-off [12].The exact generating 2PI-functional Γ[Φ, G] fulfils generalised Ward-Takahashi identities reflecting global internal symmetries of the models. As a consequence the 1PI effective potential Γ[Φ, G(Φ)]

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Thermal properties and evolution of theUA(1)factor for2+1flavors

Fejős

Hosaka

2016

Phys. Rev. D

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The thermal evolution of the axial anomaly is investigated in the system of the linear sigma model for 2 + 1 flavors. We explore the functional form of the effective potential and the coefficient of the 't Hooft determinant term. It is found that the latter develops a nontrivial structure as a function of the chiral condensate and grows everywhere with respect to the temperature. This shows that mesonic fluctuations strengthen the axial anomaly at finite temperature and it does not vanish at the critical point. The phenomenon has been found to have significance in the thermal properties of the mesonic spectra, especially concerning the η − η system.

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Erratum: Renormalized effective actions for theO(N)model at next-to-leading order of the1/Nexpansion [Phys. Rev. D80, 0250

Fejős¹,

Patkós²,

Szép³

2014

Phys. Rev. D

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Renormalization group flows of the N -component Abelian Higgs model

Fejős

Hatsuda

2017

Phys. Rev. D

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Flows of the couplings of a theory of an N -component (complex) scalar field coupled to electrodynamics are investigated using the functional renormalization group formalism in d dimensions in covariant gauges. We find charged fixed points for any number of components in d = 3, in accordance with the findings of [G. Fejos and T. Hatsuda, Phys. Rev. D 93, 121701 (2016)] for N = 1. It is argued that the appropriate choice of the regulator matrix is indispensable to obtain such a result. Ward-Takahashi identities are analyzed in the presence of the regulator, and their compatibility with the flow equation is investigated in

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G. Fejős

Renormalisability of the 2PI-Hartree approximation of multicomponent scalar models in the broken symmetry phase

Thermal properties and evolution of theUA(1)factor for2+1flavors

Erratum: Renormalized effective actions for theO(N)model at next-to-leading order of the1/Nexpansion [Phys. Rev. D80, 0250

Renormalization group flows of the N -component Abelian Higgs model

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