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On the dynamical origin of the η′ potential and the axion mass

Csaba Csáki, Raffaele Tito D’Agnolo, Rick S. Gupta, Eric Kuflik, Tuhin S. Roy, Maximilian Ruhdorfer

2023Journal of High Energy Physics11 citationsDOIOpen Access PDF

Abstract

A bstract We investigate the dynamics responsible for generating the potential of the η ′ , the (would-be) Goldstone boson associated with the anomalous axial U(1) symmetry of QCD. The standard lore posits that pure QCD dynamics generates a confining potential with a branched structure as a function of the θ angle, and that this same potential largely determines the properties of the η ′ once fermions are included. Here we test this picture by examining a supersymmetric extension of QCD with a small amount of supersymmetry breaking generated via anomaly mediation. For pure SU( N ) QCD without flavors, we verify that there are N branches generated by gaugino condensation. Once quarks are introduced, the flavor effects qualitatively change the strong dynamics of the pure theory. For F flavors we find | N − F | branches, whose dynamical origin is gaugino condensation in the unbroken subgroup for F < N – 1, and in the dual gauge group for F > N + 1. For the special cases of F = N – 1, N , N + 1 we find no branches and the entire potential is consistent with being a one-instanton effect. The number of branches is a simple consequence of the selection rules of an anomalous U(1) R symmetry. We find that the η ′ mass does not vanish in the large N limit for fixed F / N , since the anomaly is non-vanishing. The same dynamics that is responsible for the η ′ potential is also responsible for the axion potential. We present a simple derivation of the axion mass formula for an arbitrary number of flavors.

Topics & Concepts

PhysicsParticle physicsQuantum chromodynamicsAxionQuarkInstantonSupersymmetryStandard Model (mathematical formulation)Anomaly (physics)Symmetry breakingMathematical physicsQuantum mechanicsGauge (firearms)Dark matterArchaeologyHistoryParticle physics theoretical and experimental studiesBlack Holes and Theoretical PhysicsDark Matter and Cosmic Phenomena
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