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Logarithmic forms and differential equations for Feynman integrals

Enrico Herrmann, Julio Parra-Martinez

2020Journal of High Energy Physics39 citationsDOIOpen Access PDF

Abstract

A bstract We describe in detail how a d log representation of Feynman integrals leads to simple differential equations. We derive these differential equations directly in loop momentum or embedding space making use of a localization trick and generalized unitarity. For the examples we study, the alphabet of the differential equation is related to special points in kinematic space, described by certain cut equations which encode the geometry of the Feynman integral. At one loop, we reproduce the motivic formulae described by Goncharov [1] that reappeared in the context of Feynman integrals in [2–4]. The d log representation allows us to generalize the differential equations to higher loops and motivates the study of certain mixed-dimension integrals.

Topics & Concepts

MathematicsDifferential equationFeynman diagramContext (archaeology)Dimension (graph theory)Mathematical analysisMathematical physicsPure mathematicsPaleontologyBiologyBlack Holes and Theoretical PhysicsParticle physics theoretical and experimental studiesAlgebraic and Geometric Analysis
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