Tomography of high-twist proton structure through ep elastic scattering
Abstract
We present the first high-twist study of the proton form factors F1,2(Q2) in ep elastic scattering based on the perturbative QCD kT factorization, Q2 being momentum transfer squared. It is motivated by unexpectedly large higher-power contributions from subleading-twist light-cone distribution amplitudes (LCDAs), which are attributed to the enhancement in endpoint regions of parton momentum fractions. We highlight that the endpoint enhancement, tamed by the kT resummation effect, is crucial for accommodating the approximate scaling behavior of the Q4F1(Q2) data at intermediate Q2 O(10) GeV2. The proton LCDAs up to twist 6 are then extracted, and verified by the charge-parity asymmetries observed in hadronic heavy baryon decays. Our work provides new insights into the proton three-dimensional structure and manifests the precision requirement for reliable perturbative analyses of baryonic exclusive processes.
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