English

Deeply virtual Compton scattering in the tensor-pomeron approach

High Energy Physics - Phenomenology 2022-10-19 v2 High Energy Physics - Experiment

Abstract

The two-tensor-pomeron model proposed previously to describe low xx DIS data is applied to real and virtual Compton scattering on a proton. The model includes two tensor pomerons, a soft and a hard one, and tensor reggeons. We include contributions of both transverse and longitudinal virtual photons. We show that this model gives a very good description of experimental data at small Bjorken xx on deeply virtual Compton scattering (DVCS) from HERA. The reggeon exchange term is particularly relevant for describing the real-photon-proton scattering measured at lower γp\gamma p energies at FNAL. We present two fits which differ somewhat in the strength of the hard pomeron contribution. In both fits we find that the interference between soft- and hard-pomeron exchange plays an important role. We find that in DVCS the soft-pomeron contribution is considerable up to Q220Q^{2} \sim 20 GeV2^{2}. Our model allows to study the transition from the small-Q2Q^{2} regime, including the photoproduction (Q2=0Q^{2} = 0) limit, to the large-Q2Q^{2} regime, the DIS limit. We also discuss the ratio of cross sections for longitudinally and transversely polarized virtual photons in γpγp\gamma^{*} p \to \gamma p as a function of t|t| and Q2Q^2. The ratio R~(Q2,W2,t)=(dσL/dt)/(dσT/dt)\tilde{R}(Q^{2},W^{2},t) = (d\sigma_{\rm L} / dt) / (d\sigma_{\rm T} / dt) strongly increases with tt. Our findings may be checked in future lepton-nucleon scattering experiments in the low-xx regime, for instance, at a future Electron-Ion Collider at the BNL (EIC), and, if LHeC is realized, at the LHC.

Keywords

Cite

@article{arxiv.2208.12693,
  title  = {Deeply virtual Compton scattering in the tensor-pomeron approach},
  author = {Piotr Lebiedowicz and Otto Nachtmann and Antoni Szczurek},
  journal= {arXiv preprint arXiv:2208.12693},
  year   = {2022}
}

Comments

20 pages, 7 figures

R2 v1 2026-06-25T02:00:30.939Z