Exploring possible triangle singularities in the $\Xi^-_{b} \to K^- J/\psi \Lambda$ decay
Abstract
We analyze possible singularities in the invariant mass distribution of the process via triangle loop diagrams. Triangle singularities in the physical region are found in 18 different triangle loop diagrams. Among those with -charmonium- intermediate states, the one from the loop, which is located around 4628 MeV, is found the most likely to cause observable effects. One needs - and -waves in and systems, respectively, when the quantum numbers of these systems are or . When the quantum numbers of the are , or , the peak structure should be sharper than the other choices. This suggests that although the whole strength is unknown, we should pay attention to the contributions from the -charmonium- triangle diagram if structures are observed in the invariant mass spectrum experimentally. In addition, a few triangle diagrams with the as one of the intermediate particles can also produce singularities in the 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}
}