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Hypergeometric series representations of Feynman integrals by GKZ hypergeometric systems

René Pascal Klausen

2020Journal of High Energy Physics43 citationsDOIOpen Access PDF

Abstract

A bstract We show that almost all Feynman integrals as well as their coefficients in a Laurent series in dimensional regularization can be written in terms of Horn hypergeometric functions. By applying the results of Gelfand-Kapranov-Zelevinsky (GKZ) we derive a formula for a class of hypergeometric series representations of Feynman integrals, which can be obtained by triangulations of the Newton polytope ∆ G corresponding to the Lee- Pomeransky polynomial G . Those series can be of higher dimension, but converge fast for convenient kinematics, which also allows numerical applications. Further, we discuss possible difficulties which can arise in a practical usage of this approach and give strategies to solve them.

Topics & Concepts

Laurent seriesFeynman diagramHypergeometric distributionSeries (stratigraphy)Feynman integralPhysicsRegularization (linguistics)Pure mathematicsMathematicsBasic hypergeometric seriesPolytopeDimensional regularizationGeneralized hypergeometric functionAlgebra over a fieldHypergeometric functionFormalism (music)Laurent polynomialClass (philosophy)Hypergeometric function of a matrix argumentAppell seriesPolynomialFeynman graphMathematical physicsSeries expansionPolynomial and algebraic computationMathematical functions and polynomialsQuantum Mechanics and Non-Hermitian Physics
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