English

Towards resolving the $_\Lambda^3$H lifetime puzzle

Nuclear Theory 2019-08-06 v3 High Energy Physics - Phenomenology Nuclear Experiment

Abstract

Recent Λ3_\Lambda^3H lifetime measurements in relativistic heavy ion collision experiments have yielded values shorter by (30±\pm8)% than the free Λ\Lambda lifetime τΛ\tau_\Lambda, thereby questioning the naive expectation that τ(Λ3H)τΛ\tau({_\Lambda^3}{\rm H})\approx\tau_\Lambda for a weakly bound Λ\Lambda hyperon. Here we apply the closure approximation introduced by Dalitz and coworkers to evaluate the Λ3_\Lambda^3H lifetime, using Λ3_\Lambda^3H wavefunctions generated by solving three-body Faddeev equations. Our result, disregarding pion final-state interaction (FSI), is τ(Λ3H)\tau({_\Lambda^3}{\rm H})=(0.90±\pm0.01)τΛ\tau_\Lambda. In contrast to previous works, pion FSI is found attractive, reducing further τ(Λ3H)\tau({_\Lambda^3}{\rm H}) to τ(Λ3H)\tau({_\Lambda^3}{\rm H})=(0.81±\pm0.02)τΛ\tau_\Lambda. We also evaluate for the first time τ(Λ3n)\tau({_\Lambda^3}{\rm n}), finding it considerably longer than τΛ\tau_\Lambda, contrary to the shorter lifetime values suggested by the GSI HypHI experiment for this controversial hypernucleus.

Keywords

Cite

@article{arxiv.1811.03842,
  title  = {Towards resolving the $_\Lambda^3$H lifetime puzzle},
  author = {Avraham Gal and Humberto Garcilazo},
  journal= {arXiv preprint arXiv:1811.03842},
  year   = {2019}
}

Comments

v2--14 pages, 1 figure, 2 tables, replaced title of v1 and recalculated a shorter $_\Lambda^3$H lifetime than reported in v1; v3--updated references, matching published version

R2 v1 2026-06-23T05:10:05.923Z