The quark-gluon vertex and the QCD infrared dynamics

Oliveira, Orlando; Paula, W. de; Frederico, T.; Melo, J. P. B. C. de

doi:10.1140/epjc/s10052-019-6617-7

Cited by 25 publications

(86 citation statements)

References 54 publications

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“…LECs calculated from lattice fittings given in Ref[26].Correction M (0)(GeV) fπ (GeV) − ψ ψ (GeV 3 )KeV which is consistent to the experimental result.and e iΓ I [B] ≡ F[O]. The details of Fierz reordering and introducing the extended gluon Green functions could be found in Refs…”

supporting

confidence: 71%

“…In Ref. [26], the authors fitted the lattice results (corresponding to M π ¼ 295 MeV) for the quark wave function renormalization Zð−p 2 Þ and the running quark mass Mð−p 2 Þ. These functions are plotted in Fig.…”

mentioning

confidence: 99%

“…The lattice fittings of Zð−p 2 Þ and Mð−p 2 Þ given in Ref [26]. and Σð−p 2 Þ (¼ Mð−p 2 Þ) from DSE with Model A and Model B.…”

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confidence: 99%

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Chiral effective Lagrangian for heavy-light mesons from QCD

Qing-sen

et al. 2020

Phys. Rev. D

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We derive the chiral effective Lagrangian for heavy-light mesons in the heavy quark limit from QCD under proper approximations. The low energy constants in the effective Lagrangian are expressed in terms of the light quark self-energy. With typical forms of the running coupling constant of QCD and the quark self-energy obtained from Dyson-Schwinger equations as well as lattice QCD, we estimate the low energy constants in the model and the strong decay widths. A comparison with data and some discussions of the numerical results are presented.

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Chiral effective Lagrangian for heavy-light mesons from QCD

Qing-sen

et al. 2020

Phys. Rev. D

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“…Herein we pursuit the efforts initiated in [3] and developed further in [4,5] that combine results from lattice simulation in the Landau gauge, for the propagators, and the quark gap equation, together with an exact solution of the Slavnov-Taylor identity for the vertex, to get information on the quark-gluon vertex. The exact solution of the Slavnov-Taylor identity for the vertex calls for the quark-ghost kernel, a four point Green function, that is described in terms of four form factors [6], our unknowns.…”

Section: Introductionmentioning

confidence: 99%

“…The main novelty in the present work is the inclusion of the lattice results for the soft-gluon limit of the quark-gluon vertex, that translate into normalisation conditions for the quark-ghost kernel form factors. In practice, this was achieved by building an ansatz that is inspired on the analysis of the lattice data for the quarkgluon vertex [4] and the gap equation is solved for the form factors, written as Padé approximants. We stress that all other quantities in the gap equation are known from lattice simulations, including the quark propagator in the Landau gauge.…”

Section: Introductionmentioning

confidence: 99%

The soft-gluon limit and the infrared enhancement of the quark-gluon vertex

2020

Self Cite

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The Schwinger–Dyson quark equation (SDE) combined with results from lattice simulation for the propagators are used to obtain information on the quark-gluon vertex, taking into account the recent full QCD lattice results for the soft-gluon limit. Its inclusion leads to a clear enhancement of the infrared quark-gluon vertex. We also find that the relative contribution of the quark-ghost kernel to the quark-gluon vertex in the infrared region does not follow the rules from the perturbative analysis of the ultraviolet region. This shows that for QCD the intuition based on perturbation theory does not apply to the full momentum range. The framework developed in the current work provides analytical expressions for all the longitudinal components of vertex taken into account.

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The impact of transverse Slavnov-Taylor identities on dynamical chiral symmetry breaking

Albino

Bashir

El-Bennich

et al. 2021

J. High Energ. Phys.

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We extend earlier studies of transverse Ward-Fradkin-Green-Takahashi identities in QED, their usefulness to constrain the transverse fermion-boson vertex and their importance for multiplicative renormalizability, to the equivalent gauge identities in QCD. To this end, we consider transverse Slavnov-Taylor identities that constrain the transverse quark-gluon vertex and derive its eight associated scalar form factors. The complete vertex can be expressed in terms of the quark’s mass and wave-renormalization functions, the ghost-dressing function, the quark-ghost scattering amplitude and a set of eight form factors. The latter parametrize the hitherto unknown nonlocal tensor structure in the transverse Slavnov-Taylor identity which arises from the Fourier transform of a four-point function involving a Wilson line in coordinate space. We determine the functional form of these eight form factors with the constraints provided by the Bashir-Bermudez vertex and study the effects of this novel vertex on the quark in the Dyson-Schwinger equation using lattice QCD input for the gluon and ghost propagators. We observe significant dynamical chiral symmetry breaking and a mass gap that leads to a constituent mass of the order of 500 MeV for the light quarks. The flavor dependence of the mass and wave-renormalization functions as well as their analytic behavior on the complex momentum plane is studied and as an application we calculate the quark condensate and the pion’s weak decay constant in the chiral limit. Both are in very good agreement with their reference values.

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The quark-gluon vertex and the QCD infrared dynamics

Cited by 25 publications

References 54 publications

Chiral effective Lagrangian for heavy-light mesons from QCD

Chiral effective Lagrangian for heavy-light mesons from QCD

The soft-gluon limit and the infrared enhancement of the quark-gluon vertex

The impact of transverse Slavnov-Taylor identities on dynamical chiral symmetry breaking

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