Regularization with Numerical Extrapolation for Finite and UV-Divergent Multi-loop Integrals

We give numerical integration results for Feynman loop diagrams such as those covered by Laporta [1] and by Baikov and Chetyrkin [2], and which may give rise to loop integrals with UV singularities. We explore automatic adaptive integration using multivariate techniques from the PARINT package for m...

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Veröffentlicht in:	arXiv.org 2018-02
Hauptverfasser:	de Doncker, E, Yuasa, F, Kato, K, Ishikawa, T, Kapenga, J, Olagbemi, O
Format:	Artikel
Sprache:	eng
Schlagworte:	Extrapolation Integrals Message passing Numerical integration Physics - High Energy Physics - Phenomenology Regularization Singularities Stress concentration
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description	We give numerical integration results for Feynman loop diagrams such as those covered by Laporta [1] and by Baikov and Chetyrkin [2], and which may give rise to loop integrals with UV singularities. We explore automatic adaptive integration using multivariate techniques from the PARINT package for multivariate integration, as well as iterated in- tegration with programs from the QUADPACK package, and a trapezoidal method based on a double exponential trans- formation. PARINT is layered over MPI (Message Passing Interface), and incorporates advanced parallel/distributed techniques including load balancing among processes that may be distributed over a cluster or a network/grid of nodes. Results are included for 2-loop vertex and box diagrams and for sets of 2-, 3- and 4-loop self-energy diagrams with or without UV terms. Numerical regularization of integrals with singular terms is achieved by linear and non-linear extrapolation methods.
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We explore automatic adaptive integration using multivariate techniques from the PARINT package for multivariate integration, as well as iterated in- tegration with programs from the QUADPACK package, and a trapezoidal method based on a double exponential trans- formation. PARINT is layered over MPI (Message Passing Interface), and incorporates advanced parallel/distributed techniques including load balancing among processes that may be distributed over a cluster or a network/grid of nodes. Results are included for 2-loop vertex and box diagrams and for sets of 2-, 3- and 4-loop self-energy diagrams with or without UV terms. 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subjects	Extrapolation Integrals Message passing Numerical integration Physics - High Energy Physics - Phenomenology Regularization Singularities Stress concentration
title	Regularization with Numerical Extrapolation for Finite and UV-Divergent Multi-loop Integrals
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