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Wilson loops in 5d long quiver gauge theories

Christoph F. Uhlemann

2020Journal of High Energy Physics33 citationsDOIOpen Access PDF

Abstract

A bstract Quiver gauge theories with a large number of nodes host a wealth of Wilson loop operators. Expectation values are obtained, using supersymmetric localization, for Wilson loops in the antisymmetric representations associated with each individual gauge node, for a sample of 5d long quiver gauge theories whose UV fixed points have holographic duals in Type IIB. The sample includes the T N theories and the results are uniformly given in terms of Bloch-Wigner functions. The holographic representation of the Wilson loops is identified. It comprises, for each supergravity solution, a two-parameter family of D3-branes which exactly reproduce the field theory results and identify points in the internal space with the faces of the associated 5-brane web. The expectation values of (anti)fundamental Wilson loops exhibit an enhanced scaling for many operators, which matches between field theory and supergravity.

Topics & Concepts

PhysicsQuiverGauge theoryWilson loopSupersymmetric gauge theorySupergravityMathematical physicsAntisymmetric relationTheoretical physicsGauge (firearms)Seiberg dualityField theory (psychology)BraneField (mathematics)Space (punctuation)Dual polyhedronHamiltonian lattice gauge theoryLoop (graph theory)Antisymmetric tensorRepresentation (politics)Introduction to gauge theoryQuantum gauge theoryD-braneM-theoryQuantum electrodynamicsSupersymmetryLattice gauge theoryModuli spaceType (biology)Fixed pointGauge symmetryBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesQuantum Chromodynamics and Particle Interactions