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Explorations beyond dilaton chiral perturbation theory in the eight-flavor SU(3) gauge theory

Maarten Golterman, Yigal Shamir

2020Physical review. D/Physical review. D.31 citationsDOIOpen Access PDF

Abstract

We continue our study of spectroscopy data for the SU(3) gauge theory with eight fundamental fermions, motivated by the effective field theory framework of dilaton chiral perturbation theory (dChPT). At leading order dChPT predicts a constant mass anomalous dimension ${\ensuremath{\gamma}}_{m}$, consistent with the assumed proximity of an infrared fixed point. For the relatively large fermion masses simulated by the LatKMI Collaboration, the influence of the infrared fixed point diminishes, and our fits suggest that ${\ensuremath{\gamma}}_{m}$ starts running. Since a complete higher-order analysis is not feasible with presently available data, we adopt a more phenomenological approach. We propose a partial extension to higher orders, which incorporates the running of ${\ensuremath{\gamma}}_{m}$ into the tree-level Lagrangian. We find that this extension successfully describes the full fermion-mass range of the LatKMI data, including the pion taste splittings which arise from using staggered fermions in the lattice simulations. We also investigate a more general class of dilaton potentials proposed in the literature, using both the LSD and LatKMI datasets, concluding that these data favor the form predicted by dChPT.

Topics & Concepts

PhysicsFermionDilatonFixed pointGauge theoryTheoretical physicsRenormalization groupInfrared fixed pointParticle physicsChiral perturbation theoryPionMathematical physicsMathematicsMathematical analysisQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research
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