English

Hidden-bottom molecular states from $\Sigma^{(*)}_bB^{(*)}-\Lambda_bB^{(*)}$ interaction

High Energy Physics - Phenomenology 2020-12-02 v3

Abstract

In this work, we study possible hidden-bottom molecular pentaquarks PbP_b from coupled-channel Σb()B()ΛbB()\Sigma^{(*)}_bB^{(*)}-\Lambda_bB^{(*)} interaction in the quasipotential Bethe-Salpeter equation approach. In isodoublet sector with I=1/2I=1/2, with the same reasonable parameters the interaction produces seven molecular states, a state near ΣbB \Sigma_bB threshold with spin parity JP=1/2J^P=1/2^-, a state near ΣbB\Sigma^*_bB threshold with 3/23/2^-, two states near ΣbB\Sigma_bB^* threshold with 1/21/2^- and 3/23/2^-, and three states near ΣbB\Sigma_b^*B^* threshold with 1/21/2^-, 3/23/2^-, and 5/25/2^-. The results suggest that three states near ΣbB\Sigma_b^* B^* threshold and two states near ΣbB\Sigma_b B^* threshold are very close, respectively, which may be difficult to distinguish in experiment without partial wave analysis. Compared with the hidden-charm pentaquark, the PbP_b states are relatively narrow with widths at an order of magnitude of 1 MeV or smaller. The importance of each channel considered is also discussed, and it is found that the ΛbB\Lambda_b B^* channel provides important contribution for the widths of those states. In isoquartet sector with I=3/2I=3/2, cutoff should be considerably enlarged to achieve bound states from the interaction, which makes the existence of such states unreliable. The results in the current work are helpful for searching for hidden-bottom molecular pentaquarks in future experiments, such as the COMPASS, J-PARC, and the Electron Ion Collider in China (EicC).

Keywords

Cite

@article{arxiv.2007.07596,
  title  = {Hidden-bottom molecular states from $\Sigma^{(*)}_bB^{(*)}-\Lambda_bB^{(*)}$ interaction},
  author = {Jun-Tao Zhu and Shu-Yi Kong and Yi Liu and Jun He},
  journal= {arXiv preprint arXiv:2007.07596},
  year   = {2020}
}

Comments

8 pages, 3 figures

R2 v1 2026-06-23T17:08:07.293Z