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First Global Extraction of Generalized Parton Distributions from Experiment and Lattice Data with Next-to-Leading-Order Accuracy

Yuxun Guo, Fatma P. Aslan, Xiangdong Ji, M. Gabriel Santiago

2025Physical Review Letters7 citationsDOIOpen Access PDF

Abstract

We report the first global extraction of generalized parton distributions, GUMP 1.0, by combining deeply virtual Compton scattering and ρ-meson production data from Jefferson Lab and the Hadron-Electron Ring Accelerator with global fits of parton distribution functions, charge form factors, and lattice quantum chromodynamics simulations. Using a conformal moment space parametrization, we achieve a unified description across low- and high-x regions at next to leading order accuracy in perturbative corrections. The results provide state-of-the-art generalized parton distributions consistent with almost all known facts, enabling three-dimensional nucleon imaging in impact parameter space and, at the same time, establishing a benchmark for future theoretical and experimental studies of the nucleon structure.

Topics & Concepts

PartonPhysicsParticle physicsNucleonQuantum chromodynamicsScatteringCompton scatteringLattice QCDLattice field theoryLattice (music)Parameter spaceAnomalous magnetic dipole momentConformal mapSpace (punctuation)Perturbative QCDEffective field theoryQuarkQuantum electrodynamicsQuantum field theoryDistribution functionNuclear physicsDistribution (mathematics)Deep inelastic scatteringStatistical physicsBenchmark (surveying)Moment (physics)Operator (biology)Operator product expansionParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research