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Instantons, symmetries and anomalies in five dimensions

Pietro Benetti Genolini, Luigi Tizzano

2021Journal of High Energy Physics54 citationsDOIOpen Access PDF

Abstract

A bstract All five-dimensional non-abelian gauge theories have a U(1) I global symmetry associated with instantonic particles. We describe an obstruction to coupling U(1) I to a classical background gauge field that occurs whenever the theory has a one-form center symmetry. This is a finite-order mixed ’t Hooft anomaly between the two symmetries. We also show that a similar obstruction takes place in gauge theories with fundamental matter by studying twisted bundles for the ordinary flavor symmetry. We explore some general dynamical properties of the candidate phases implied by the anomaly. Finally, we apply our results to supersymmetric gauge theories in five dimensions and analyze the symmetry enhancement patterns occurring at their conjectured RG fixed points.

Topics & Concepts

PhysicsAnomaly (physics)Supersymmetric gauge theoryGauge anomalyTheoretical physicsGauge theoryGauge symmetryMixed anomalyHomogeneous spaceSeiberg dualitySymmetry (geometry)Introduction to gauge theoryGauge (firearms)Hamiltonian lattice gauge theoryBRST quantizationGlobal symmetryQuantum gauge theoryCoupling (piping)Field (mathematics)Mathematical physicsLattice gauge theoryGauge bosonSpontaneous symmetry breakingQuantum electrodynamicsField theory (psychology)Symmetry breakingParticle physicsU-1Black Holes and Theoretical PhysicsQuantum Chromodynamics and Particle InteractionsQuantum and Classical Electrodynamics
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