arXiv:2311.02457 Abstract | arXiv Analytics

arXiv:2311.02457 [hep-ph]Abstract References Reviews Resources

IBPs and differential equations in parameter space

Published 2023-11-04Version 1

We present a projective framework for the construction of Integration by Parts (IBP) identities and differential equations for Feynman integrals, working in Feynman-parameter space. This framework originates with very early results which emerged long before modern techniques for loop calculations were developed. Adapting and generalising these results to the modern language, we use simple tools of projective geometry to generate sets of IBP identities and differential equations in parameter space, with a technique applicable to any loop order. We test the viability of the method on simple diagrams at one and two loops, providing a unified viewpoint on several existing results.

Comments: 12 pages, 1 figure. Presented at RadCor2023 Submitted to PoS

Categories: hep-ph, hep-th

Keywords: differential equations, simple diagrams, feynman integrals, feynman-parameter space, framework originates

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arXiv:2311.02457 [hep-ph]Abstract References Reviews Resources

IBPs and differential equations in parameter space

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arXiv:2311.02457 [hep-ph]AbstractReferencesReviewsResources

IBPs and differential equations in parameter space

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arXiv:2311.02457 [hep-ph]Abstract References Reviews Resources