Low-Q2 nucleon structure from an infrared-safe evolution scheme
Abstract
The low-Q2 nucleon structure is given with a simple nonperturbative input of three valence quarks and an all-order infrared-safe evolution scheme, showing some consistences with the experimental data. The resonance peaks in the experimental data of F2 structure function are found to be modulated by the valence quark distributions. With little sea quark distribution at low Q2 the valence-quark bump is clearly shown in the structure function. The three valence quark distributions at the hadronic scale is found to be the dominant origin of the PDFs at the hard scales. The high-twist corrections are needed to explain the sizeable discrepancy between the theory and the experimental measurements at low Q2. The infrared-safe evolution scheme is a powerful tool for connecting the nucleon structures in the nonperturbative and perturbative regions.
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