Backward DVCS in a Sullivan process
Abstract
Mesons' internal structure and dynamics may be accessed through hard exclusive electroproduction processes such as deeply virtual Compton scattering in both near forward and near backward kinematics. With the help of the Sullivan process which allows us to use a nucleon target as a quasi-real meson emitter, we study backward scattering in the framework of collinear QCD factorization where pion-to-photon transition distribution amplitudes describe the photon content of the meson. We present a model of these TDAs based on the overlap of lightfront wave functions primarily developed for generalized parton distributions, using a previously developed pion lightfront wave function and deriving a new model for the lightfront wave functions of the photon. This leads us to an estimate of the cross-sections for JLab energies. We conclude that deeply virtual processes, in backward kinematics, may be experimentally discovered in the near future.
Cite
@article{arxiv.2504.02657,
title = {Backward DVCS in a Sullivan process},
author = {Abigail R. Castro and Cédric Mezrag and Jose M. Morgado Chávez and Bernard Pire},
journal= {arXiv preprint arXiv:2504.02657},
year = {2025}
}
Comments
20 pages, 7 figures