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Large-x resummation of off-diagonal deep-inelastic parton scattering from d-dimensional refactorization

Martin Beneke, Mathias Garny, Sebastian Jaskiewicz, Robert Szafron, Leonardo Vernazza, Jian Wang

2020Journal of High Energy Physics40 citationsDOIOpen Access PDF

Abstract

A bstract The off-diagonal parton-scattering channels g + γ * and q + ϕ * in deep-inelastic scattering are power-suppressed near threshold x → 1. We address the next-to-leading power (NLP) resummation of large double logarithms of 1 − x to all orders in the strong coupling, which are present even in the off-diagonal DGLAP splitting kernels. The appearance of divergent convolutions prevents the application of factorization methods known from leading power resummation. Employing d -dimensional consistency relations from requiring 1 /ϵ pole cancellations in dimensional regularization between momentum regions, we show that the resummation of the off-diagonal parton-scattering channels at the leading logarithmic order can be bootstrapped from the recently conjectured exponentiation of NLP soft-quark Sudakov logarithms. In particular, we derive a result for the DGLAP kernel in terms of the series of Bernoulli numbers found previously by Vogt directly from algebraic all-order expressions. We identify the off-diagonal DGLAP splitting functions and soft-quark Sudakov logarithms as inherent two-scale quantities in the large- x limit. We use a refactorization of these scales and renormalization group methods inspired by soft-collinear effective theory to derive the conjectured soft-quark Sudakov exponentiation formula.

Topics & Concepts

ResummationDGLAPPhysicsExponentiationParticle physicsFactorizationLogarithmPartonQuantum chromodynamicsDimensional regularizationKernel (algebra)ExtrapolationPower seriesRenormalizationRegularization (linguistics)Perturbation theory (quantum mechanics)Renormalization groupScatteringHessian matrixPerturbative QCDPadé approximantScattering amplitudeGluonSeries (stratigraphy)Quantum electrodynamicsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research
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