English

Microscopic Calculation of $\Lambda-\alpha$ Folding Potential

Nuclear Theory 2022-08-09 v1

Abstract

We construct a folding potential between the α\alpha and Λ\Lambda particles based on underlying nucleon-nucleon and hyperon-nucleon interactions. Starting from a phenomenological Λ\Lambda-N potential and a Gaussian form of the α\alpha-particle wave function we obtain for the built α\alpha-Λ\Lambda interaction a bound Λ5^5_\LambdaHe state with the binding energy (3.10 MeV), which is consistent with recent experimental data 3.12±0.023.12 \pm 0.02 MeV. When in turn an exact solution of the four-body Faddeev-Yakubovsky equation for the α\alpha-particle calculated with the CDBonn, Nijmegen or Argonne V18 realistic nucleon-nucleon potential is used and the phenomenological Gaussian Λ\Lambda-N potential is replaced by the realistic (Nijmegen NSC97f) potential approximated by a rank-1 separable form, then Λ5^5_\LambdaHe is overbound. In particular, its binding energy given by the folding potential generated with the α\alpha particle wave function based on the CDBonn potential is 7.47 MeV. Although the rank-1 separable Λ\Lambda-N potential reproduces the exact scattering length and the effective range of the original Λ\Lambda-N potential, the overbinding results from the lack of the required repulsive properties in the assumed separable form.

Keywords

Cite

@article{arxiv.2006.10392,
  title  = {Microscopic Calculation of $\Lambda-\alpha$ Folding Potential},
  author = {Htun Htun Oo and Hiroyuki Kamada},
  journal= {arXiv preprint arXiv:2006.10392},
  year   = {2022}
}

Comments

13pages, 4 figures

R2 v1 2026-06-23T16:25:39.050Z