English

Antibaryon interactions with the nuclear medium

Nuclear Theory 2017-10-06 v1

Abstract

This contribution deals with our recent study of antibaryon interactions with the nuclear medium within the relativistic mean-field approach using antibaryon coupling constants consistent with available experimental data. We performed calculations of Bˉ\bar{B} (Bˉ=pˉ,Λˉ,Σˉ,Ξˉ\bar{B}=\bar{p}, \bar{\Lambda}, \bar{\Sigma}, \bar{\Xi}) bound states in selected nuclei. Due to the lack of information on the in-medium antihyperon annihilation near threshold only the pˉ\bar{p} absorption was considered. It was described by the imaginary part of a phenomenological optical potential fitted to pˉ\bar{p}-atom data. The annihilation was treated dynamically, taking into account explicitly the reduced phase space for annihilation products in the nuclear medium, as well as the compressed nuclear density due to the antiproton. The energy available for the annihilation products was evaluated self-consistently, considering additional energy shift due to particle momenta in the pˉ{\bar p}-nucleus system. Corresponding pˉ\bar{p} widths were significantly reduced, however, they still remain sizable. Next, the pˉ\bar{p}-nucleus interaction was constructed using the latest version of the Paris NˉN\bar{N}N potential. Related scattering amplitudes were used to define the complex pˉ\bar{p} optical potential in the nuclear medium. The resulting pˉ\bar{p} 1s1s binding energies are about 10% smaller and widths about 20% larger than those obtained with the phenomenological approach.

Keywords

Cite

@article{arxiv.1710.02045,
  title  = {Antibaryon interactions with the nuclear medium},
  author = {Jaroslava Hrtánková and Jiří Mareš},
  journal= {arXiv preprint arXiv:1710.02045},
  year   = {2017}
}

Comments

8 pages, 6 figures, proceedings of the 26th International Nuclear Physics Conference, Adelaide, Australia, 11-16 September, 2016

R2 v1 2026-06-22T22:04:44.596Z