English

The cross-section measurement for the $^3{\textrm H}(e,e'K^+)nn\Lambda$ reaction

Nuclear Experiment 2022-01-25 v2 Nuclear Theory

Abstract

The small binding energy of the hypertrition leads to predictions of non-existence of bound hypernuclei for isotriplet three-body systems such as nnΛnn\Lambda. However, invariant mass spectroscopy at GSI has reported events that may be interpreted as the bound nnΛnn\Lambda state. The nnΛnn\Lambda state was sought by missing-mass spectroscopy via the (e,eK+)(e,e'K^+) reaction at Jefferson Lab's experimental Hall A. The present experiment has higher sensitivity to the nnΛnn\Lambda-state investigation in terms of better precision by a factor of about three. The analysis shown in this article focuses on the derivation of the reaction cross-section for the 3H(γ,K+)X^3{\rm{H}}(\gamma^{*},K^+)\textrm{X} reaction. Events that were detected in an acceptance, where a Monte Carlo simulation could reproduce the data well (δp/p<4%|\delta p/p| < 4\%), were analyzed to minimize the systematic uncertainty. No significant structures were observed with the acceptance cuts, and the upper limits of the production cross-section of the nnΛnn\Lambda state were obtained to be 2121 and 31 nb/sr31~\rm{nb/sr} at the 90%90\% confidence level when theoretical predictions of (BΛ,Γ)=(0.25,0.8)(-B_{\Lambda}, \Gamma) = (0.25,0.8) and (0.55,4.7)(0.55, 4.7) MeV, respectively, were assumed. The cross-section result provides valuable information for examining the existence of nnΛnn\Lambda.

Keywords

Cite

@article{arxiv.2110.09104,
  title  = {The cross-section measurement for the $^3{\textrm H}(e,e'K^+)nn\Lambda$ reaction},
  author = {K. N. Suzuki and T. Gogami and B. Pandey and K. Itabashi and S. Nagao and K. Okuyama and S. N. Nakamura and L. Tang and D. Abrams and T. Akiyama and D. Androic and K. Aniol and C. Ayerbe Gayoso and J. Bane and S. Barcus and J. Barrow and V. Bellini and H. Bhatt and D. Bhetuwal and D. Biswas and A. Camsonne and J. Castellanos and J-P. Chen and J. Chen and S. Covrig and D. Chrisman and R. Cruz-Torres and R. Das and E. Fuchey and K. Gnanvo and F. Garibaldi and T. Gautam and J. Gomez and P. Gueye and T. J. Hague and O. Hansen and W. Henry and F. Hauenstein and D. W. Higinbotham and C. E. Hyde and M. Kaneta and C. Keppel and T. Kutz and N. Lashley-Colthirst and S. Li and H. Liu and J. Mammei and P. Markowitz and R. E. McClellan and F. Meddi and D. Meekins and R. Michaels and M. Mihovilovič and A. Moyer and D. Nguyen and M. Nycz and V. Owen and C. Palatchi and S. Park and T. Petkovic and S. Premathilake and P. E. Reimer and J. Reinhold and S. Riordan and V. Rodriguez and C. Samanta and S. N. Santiesteban and B. Sawatzky and S. Širca and K. Slifer and T. Su and Y. Tian and Y. Toyama and K. Uehara and G. M. Urciuoli and D. Votaw and J. Williamson and B. Wojtsekhowski and S. A. Wood and B. Yale and Z. Ye and J. Zhang and X. Zheng},
  journal= {arXiv preprint arXiv:2110.09104},
  year   = {2022}
}

Comments

27 pages, 12 figures

R2 v1 2026-06-24T06:58:04.884Z