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(Symplectic) leaves and (5d Higgs) branches in the Poly(go)nesian Tropical Rain Forest

Marieke van Beest, Antoine Bourget, Julius Eckhard, Sakura Schäfer-Nameki

2020Journal of High Energy Physics52 citationsDOIOpen Access PDF

Abstract

A bstract We derive the structure of the Higgs branch of 5d superconformal field theories or gauge theories from their realization as a generalized toric polygon (or dot diagram). This approach is motivated by a dual, tropical curve decomposition of the ( p, q ) 5-brane-web system. We define an edge coloring, which provides a decomposition of the generalized toric polygon into a refined Minkowski sum of sub-polygons, from which we compute the magnetic quiver. The Coulomb branch of the magnetic quiver is then conjecturally identified with the 5d Higgs branch. Furthermore, from partial resolutions, we identify the symplectic leaves of the Higgs branch and thereby the entire foliation structure. In the case of strictly toric polygons, this approach reduces to the description of deformations of the Calabi-Yau singularities in terms of Minkowski sums.

Topics & Concepts

QuiverHiggs bosonPolygon (computer graphics)PhysicsSymplectic geometryToric varietyCoulombHiggs fieldMinkowski spaceGeodetic datumField (mathematics)Newton polygonGravitational singularityGauge theoryDecompositionRealization (probability)Theoretical physicsClass (philosophy)GeneralizationParticle physicsGauge (firearms)Pure mathematicsField theory (psychology)Enhanced Data Rates for GSM EvolutionTropical rain forestMagnetic fieldMathematicsMathematical physicsAlgebraic structures and combinatorial modelsBlack Holes and Theoretical PhysicsAlgebraic Geometry and Number Theory
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