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Gluon condensates and effective gluon mass

Jan Horak, Friederike Ihssen, Joannis Papavassiliou, Jan M. Pawlowski, Axel Weber, C. Wetterich

2022SciPost Physics26 citationsDOIOpen Access PDF

Abstract

Lattice simulations along with studies in continuum QCD indicate that non-perturbative quantum fluctuations lead to an infrared regularisation of the gluon propagator in covariant gauges in the form of an effective mass-like behaviour. In the present work we propose an analytic understanding of this phenomenon in terms of gluon condensation through a dynamical version of the Higgs mechanism, leading to the emergence of color condensates. Within the functional renormalisation group approach we compute the effective potential of covariantly constant field strengths, whose non-trivial minimum is related to the color condensates. In the physical case of an $SU(3)$ gauge group this is an octet condensate. The value of the gluon mass obtained through this procedure compares very well to lattice results and the mass gap arising from alternative dynamical scenarios.

Topics & Concepts

GluonPhysicsPropagatorMass gapParticle physicsGluon fieldQuantum chromodynamicsGluon condensateCovariant transformationMass generationLattice (music)Lattice gauge theoryQuantum electrodynamicsGauge theoryQuantum mechanicsGauge fixingGauge bosonFermionAcousticsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research
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