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Leading power accuracy in lattice calculations of parton distributions

Rui Zhang, Jack Holligan, Xiangdong Ji, Yushan Su

2023Physics Letters B41 citationsDOIOpen Access PDF

Abstract

In lattice-QCD calculations of parton distribution functions (PDFs) via large-momentum effective theory, the leading power (twist-three) correction appears as O(ΛQCD/Pz) due to the linear-divergent self-energy of Wilson line in quasi-PDF operators. For lattice data with hadron momentum Pz of a few GeV, this correction is dominant in matching, as large as 30% or more. We show how to eliminate this uncertainty through choosing the mass renormalization parameter consistently with the resummation scheme of the infrared-renormalon series in perturbative matching coefficients. An example on the lattice pion PDF data at Pz=1.9 GeV shows an improvement of matching accuracy by a factor of more than 3∼5 in the expansion region x=0.2∼0.5.

Topics & Concepts

RenormalonPhysicsResummationPartonParticle physicsLattice QCDRenormalizationPionLambdaQuantum chromodynamicsLattice (music)Lattice field theoryRenormalization groupHadronDistribution functionMathematical physicsQuantum mechanicsAcousticsParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
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