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Scalar-scaffolded gluons and the combinatorial origins of Yang-Mills theory

Nima Arkani–Hamed, Qu Cao, Jin Dong, Carolina Figueiredo, Song He

2025Journal of High Energy Physics24 citationsDOIOpen Access PDF

Abstract

A bstract We present a new formulation for Yang-Mills scattering amplitudes in any number of dimensions and at any loop order, based on the same combinatorial and binary-geometric ideas in kinematic space recently used to give an all-order description of Tr ϕ 3 theory. We propose that in a precise sense the amplitudes for a suitably “stringy” form of these two theories are identical, up to a simple shift of kinematic variables. This connection is made possible by describing the amplitudes for n gluons via a “scalar scaffolding”, arising from the scattering of 2 n colored scalars coming in n distinct pairs of flavors fusing to produce the gluons. Fundamental properties of the “ u -variables”, describing the “binary geometry” for surfaces appearing in the topological expansion, magically guarantee that the kinematically shifted Tr ϕ 3 amplitudes satisfy the physical properties needed to be interpreted as scaffolded gluons. These include multilinearity, gauge invariance, and factorization on tree- and loop-level gluon cuts. Our “stringy” scaffolded gluon amplitudes coincide with amplitudes in the bosonic string for extra-dimensional gluon polarizations at tree-level, but differ (and are simpler) at loop-level. We provide many checks on our proposal, including matching non-trivial leading singularities through two loops. The simple counting problem underlying the u variables autonomously “knows” about everything needed to convert colored scalar to gluon amplitudes, exposing a striking “discovery” of Yang-Mills amplitudes from elementary combinatorial ideas in kinematic space.

Topics & Concepts

PhysicsGluonScalar (mathematics)Particle physicsYang–Mills theoryQuark–gluon plasmaMathematical physicsTheoretical physicsQuantum chromodynamicsGauge theoryGeometryMathematicsBlack Holes and Theoretical PhysicsParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle Interactions
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