Valentin Mader scite author profile

We study hadronic decays of mesons and baryons in the context of the Dyson-Schwinger equations of QCD. Starting from a well-established effective interaction in rainbow-ladder truncation, we consistently calculate all ingredients of the appropriate decay diagrams. The resulting strong couplings are presented as functions of the quark mass from the chiral limit up to the respective decay thresholds. In particular, we investigate the \rho \pi \pi and for the first time the \Delta N \pi transitions. Both meson and baryon results compare well to available lattice QCD results as well as experimental data and present the first step towards a comprehensive covariant study of hadron resonances in the Dyson-Schwinger approach

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Infrared saturation and phases of gauge theories with BRST symmetry

Mader

Schaden

Zwanziger

et al. 2014

Eur. Phys. J. C

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We investigate the infrared limit of the quantum equation of motion of the gauge boson propagator in various gauges and models with a BRST symmetry. We find that the saturation of this equation at low momenta distinguishes between the Coulomb, Higgs and confining phase of the gauge theory. The Coulomb phase is characterized by a massless gauge boson. Physical states contribute to the saturation of the transverse equation of motion of the gauge boson at low momenta in the Higgs phase, while the saturation is entirely due to unphysical degrees of freedom in the confining phase. This corollary to the Kugo–Ojima confinement criterion in linear covariant gauges also is sufficient for confinement in general covariant gauges with BRST and anti-BRST symmetry, maximal Abelian gauges with an equivariant BRST symmetry, non-covariant Coulomb gauge and in the Gribov–Zwanziger theory.

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The Dyson-Schwinger equation of a link variable in lattice Landau gauge theory

Sternbeck¹,

Schaden²,

Mader³

2015

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On the infrared behaviour of QCD Green functions in the Maximally Abelian gauge

Alkofer¹,

Huber²,

Mader³

et al. 2012

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Functional equations like exact renormalisation group and Dyson-Schwinger equations have contributed to a better understanding of non-perturbative phenomena in quantum field theories in terms of the underlying Green functions. In Yang-Mills theory especially the Landau gauge has been used, as it is the most accessible gauge for these methods. In the maximally Abelian gauge first results have been obtained which are very encouraging because Abelian infrared dominance has been found: The Abelian part of the gauge field propagator is enhanced at low momenta and thereby dominates the dynamics in the infrared. Also the ambiguity of two different types of solutions (decoupling and scaling) exists in both gauges. It is demonstrated how the two solutions are related in the maximally Abelian gauge. As in all two-point Dyson-Schwinger equations of the MAG the infrared dominant diagrams are sunset diagrams, in addition, a BPHZ regularisation and renormalisation of a test system with a sunset-like diagram is presented.

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On the infrared behaviour of QCD Green functions in the Maximally Abelian gauge

Alkofer¹,

Huber²,

Mader³

et al. 2011

Preprint

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Valentin Mader

Hadronic decays of mesons and baryons in the Dyson-Schwinger approach

Infrared saturation and phases of gauge theories with BRST symmetry

The Dyson-Schwinger equation of a link variable in lattice Landau gauge theory

On the infrared behaviour of QCD Green functions in the Maximally Abelian gauge

On the infrared behaviour of QCD Green functions in the Maximally Abelian gauge

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