English

On the Stability of $\Lambda(1405)$ Matter

Nuclear Theory 2019-09-04 v1

Abstract

A hypothesis of absolutely stable strange hadronic matter composed of Λ(1405)\Lambda(1405) baryons, here denoted Λ\Lambda^*, is tested within many-body calculations performed using the Relativistic Mean-Field approach. In our calculations, we employed the ΛΛ\Lambda^*\Lambda^* interaction compatible with the ΛΛ\Lambda^*\Lambda^* binding energy BΛΛ=40B_{\Lambda^*\Lambda^*}=40~MeV given by the phenomenological energy-independent KˉN\bar{K}N interaction model by Yamazaki and Akaishi (YA). We found that the binding energy per Λ\Lambda^*, as well as the central density in Λ\Lambda^* many-body systems saturates for mass number A120A\geq120, leaving Λ\Lambda^* aggregates highly unstable against strong interaction decay. Moreover, we confronted the YA interaction model with kaonic atom data and found that it fails to reproduce the KK^- single-nucleon absorption fractions at rest from bubble chamber experiments.

Keywords

Cite

@article{arxiv.1904.01928,
  title  = {On the Stability of $\Lambda(1405)$ Matter},
  author = {J. Hrtánková and N. Barnea and E. Friedman and A. Gal and J. Mareš and M. Schäfer},
  journal= {arXiv preprint arXiv:1904.01928},
  year   = {2019}
}

Comments

Proceedings of the HYP2018 conference, Norfolk/Portsmouth, USA, June 24 - 29, 2018, submitted to AIP Conference Proceedings

R2 v1 2026-06-23T08:27:58.890Z