Litcius/Paper detail

Planar six-point Feynman integrals for four-dimensional gauge theories

Samuel Abreu, Pier Francesco Monni, Ben Page, Johann Usovitsch

2025Journal of High Energy Physics14 citationsDOIOpen Access PDF

Abstract

A bstract We compute all planar two-loop six-point Feynman integrals entering scattering observables in massless gauge theories such as QCD. A central result of this paper is the formulation of the differential-equations method under the algebraic constraints stemming from four-dimensional kinematics, which in this case leaves only 8 independent scales. We show that these constraints imply that one must compute topologies with only up to 8 propagators, instead of the expected 9. This leads to the decoupling of entire classes of integrals that do not contribute to scattering amplitudes in four dimensional gauge theories. We construct a pure basis and derive their canonical differential equations, of which we discuss the numerical solution. This work marks an important step towards the calculation of massless 2 → 4 scattering processes at two loops.

Topics & Concepts

PhysicsFeynman diagramSupersymmetric gauge theoryMathematical physicsFeynman graphGauge theoryPlanarGauge (firearms)Point (geometry)Theoretical physicsFeynman integralPropagatorBRST quantizationQuantum electrodynamicsParticle physicsGeometryMathematicsComputer graphics (images)HistoryComputer scienceArchaeologyAlgebraic and Geometric AnalysisNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical Physics