English

Exploring possible triangle singularities in the $\Xi^-_{b} \to K^- J/\psi \Lambda$ decay

High Energy Physics - Phenomenology 2020-10-07 v2

Abstract

We analyze possible singularities in the J/ψΛJ/\psi \Lambda invariant mass distribution of the Ξb  KJ/ψΛ\Xi^-_{b}~\to~K^- J/\psi \Lambda process via triangle loop diagrams. Triangle singularities in the physical region are found in 18 different triangle loop diagrams. Among those with Ξ\Xi^*-charmonium-Λ\Lambda intermediate states, the one from the χc1Ξ(2120)Λ\chi_{c1} \Xi(2120) \Lambda loop, which is located around 4628 MeV, is found the most likely to cause observable effects. One needs SS- and PP-waves in χc1Λ\chi_{c1} \Lambda and J/ψΛJ/\psi \Lambda systems, respectively, when the quantum numbers of these systems are 1/2+1/2^+ or 3/2+3/2^+. When the quantum numbers of the Ξ(2120)\Xi(2120) are JP=1/2+J^P=1/2^+, 1/21/2^- or 3/2+3/2^+, the peak structure should be sharper than the other JPJ^P choices. This suggests that although the whole strength is unknown, we should pay attention to the contributions from the Ξ\Xi^*-charmonium-Λ\Lambda triangle diagram if structures are observed in the J/ψΛJ/\psi \Lambda invariant mass spectrum experimentally. In addition, a few triangle diagrams with the Ds1(2700)D_{s1}^*(2700) as one of the intermediate particles can also produce singularities in the J/ψΛJ/\psi\Lambda distribution, but at higher energies above 4.9 GeV.

Keywords

Cite

@article{arxiv.2008.09082,
  title  = {Exploring possible triangle singularities in the $\Xi^-_{b} \to K^- J/\psi \Lambda$ decay},
  author = {Chao-Wei Shen and Hao-Jie Jing and Feng-Kun Guo and Jia-Jun Wu},
  journal= {arXiv preprint arXiv:2008.09082},
  year   = {2020}
}
R2 v1 2026-06-23T17:59:48.235Z