English

$e^+ e^- \to \Lambda^+_c \bar{\Lambda}^-_c$ cross sections and the $\Lambda_c^+$ electromagnetic form factors within the extended vector meson dominance model

High Energy Physics - Phenomenology 2024-02-22 v2 High Energy Physics - Experiment Nuclear Experiment Nuclear Theory

Abstract

Within the extended vector meson dominance model, we investigate the e+eΛc+Λˉce^+ e^- \to \Lambda^+_c \bar{\Lambda}^-_c reaction and the electromagnetic form factors of the charmed baryon Λc+\Lambda_c^+. The model parameters are determined by fitting them to the cross sections of the process e+eΛc+Λˉce^+e^-\rightarrow \Lambda_c^+ \bar{\Lambda}_c^- and the magnetic form factor GM|G_M| of Λc+\Lambda^+_c. By considering four charmoniumlike states, called ψ(4500)\psi(4500), ψ(4660)\psi(4660), ψ(4790)\psi(4790), and ψ(4900)\psi(4900), we can well describe the current data on the e+eΛc+Λˉce^+ e^- \to \Lambda^+_c \bar{\Lambda}^-_c reaction from the reaction threshold up to 4.96 GeV4.96 \ \mathrm{GeV}. In addition to the total cross sections and GM|G_M|, the ratio GE/GM|G_E/G_M| and effective form factor Geff|G_{\mathrm{eff}}| for Λc+\Lambda^+_c are also calculated, and found that these calculations are consistent with the experimental data. Within the fitted model parameters, we have also estimated the charge radius of the charmed Λc+\Lambda_c^+ baryon.

Keywords

Cite

@article{arxiv.2312.16753,
  title  = {$e^+ e^- \to \Lambda^+_c \bar{\Lambda}^-_c$ cross sections and the $\Lambda_c^+$ electromagnetic form factors within the extended vector meson dominance model},
  author = {Cheng Chen and Bing Yan and Ju-Jun Xie},
  journal= {arXiv preprint arXiv:2312.16753},
  year   = {2024}
}

Comments

7 pages, 6 figures. Published version

R2 v1 2026-06-28T14:03:17.508Z