$K^+\Lambda$ electroproduction above the resonance region
Abstract
Background: In and electroproduction, conventional models cannot satisfactory explain the data above the resonance region, in particular the transverse cross section. Although no high-energy L-T-separated cross-section data is available to date, a similar scenario can be inferred for electroproduction. Purpose: Develop a phenomenological model for the reaction at forward angles and high-energies. Propose a universal framework for interpreting charged-kaon and charged-pion electroproduction above the resonance region. Method: Guided by the recent model for charged-pion electroproduction, developed by the authors, a framework for electroproduction at high energies and forward angles is constructed. To this end, a Reggeized background model for photoproduction is first developed. This model is used as a starting base to set up an electroproduction framework. Results: The few available data of the unseparated cross section are well explained by the model. Predictions for the L-T-separation experiment planned with the 12 GeV upgrade at Jefferson Lab are given. The newly-proposed framework predicts an increased magnitude for the transverse structure function, similar to the situation in charged-pion electroproduction. Conclusions: Within a hadronic framework featuring Reggeized background amplitudes, -channel resonance-parton effects can explain the observed magnitude of the unseparated cross section at high energies and forward angles. Thereby, no hardening of the kaon electromagnetic form factor is required.
Cite
@article{arxiv.1404.4156,
title = {$K^+\Lambda$ electroproduction above the resonance region},
author = {Tom Vrancx and Jan Ryckebusch and Jannes Nys},
journal= {arXiv preprint arXiv:1404.4156},
year = {2015}
}
Comments
9 pages, 7 figures