English

Theoretical study of the $\Xi\alpha$ correlation function

Nuclear Theory 2026-05-27 v3 High Energy Physics - Phenomenology

Abstract

We study Ξ\Xi-4He^4{\mathrm{He}} (α\alpha) momentum correlation functions in the high-energy nuclear collisions to investigate the nature of the ΞN\Xi N interactions. We employ the folding Ξα\Xi \alpha potential based on the lattice QCD ΞN\Xi N interactions to compute the correlation function. The Ξα\Xi \alpha potential supports a Coulomb-assisted bound state Ξ5H{}^5_{\Xi}\mathrm{H} in the Ξα\Xi^-\alpha channel, while the Ξ0α\Xi^0\alpha channel is unbound. To examine the sensitivity of the correlation function to the nature of the Ξα\Xi \alpha interaction, we vary the potential strength simulating stronger and weaker interactions. The result of the correlation function is sensitive to the existence of the bound state in the Ξ0α\Xi^0 \alpha channel, and the characteristic behavior of the bound state remains also in the Ξα\Xi^-\alpha correlation with the Coulomb interaction. The effect of the repulsive core of the Ξα\Xi\alpha potential can be found in the correlation from the small source as the distinctive dip in the intermediate momentum region.

Keywords

Cite

@article{arxiv.2409.13207,
  title  = {Theoretical study of the $\Xi\alpha$ correlation function},
  author = {Yuki Kamiya and Asanosuke Jinno and Tetsuo Hyodo and Akira Ohnishi},
  journal= {arXiv preprint arXiv:2409.13207},
  year   = {2026}
}

Comments

7 pages, 6 figures, published version

R2 v1 2026-06-28T18:50:56.400Z