English

Doubly Charmed Pentaquarks

High Energy Physics - Phenomenology 2020-04-29 v1 High Energy Physics - Experiment High Energy Physics - Lattice Nuclear Experiment Nuclear Theory

Abstract

The LHCb Collaboration, using its full data set from runs 11 and 22, announced in 20192019 a surprising update of the hidden-charm pentaquark states Pc(4380)+P_c(4380)^+ and Pc(4450)+P_c(4450)^+, observed in 2015. A new state, Pc(4312)+P_c(4312)^+, was clearly seen at lower energies; furthermore, the original Pc(4450)P_c(4450) resonance was resolved into two individual states, named the Pc(4440)+P_c(4440)^+ and the Pc(4457)+P_c(4457)^+. Motivated by the fact that these new hidden-charm pentaquark states were successfully predicted by our chiral quark model, we extend herein such study to the doubly charmed sector. The analyzed total spin and parity quantum numbers are JP=12J^P=\frac12^-, 32\frac32^- and 52\frac52^-, in the I=12I=\frac12 and 32\frac32 isospin channels. We find several possible narrow baryon-meson resonances (theoretical masses in parenthesis): IJP=1212IJ^P = \frac12 \frac12^- ΣcD(4356)\Sigma_c D(4356), 1232\frac12 \frac32^- ΣcD(4449)\Sigma^*_c D(4449), 3212\frac32 \frac12^- ΣcD(4431)\Sigma_c D(4431), 3212\frac32 \frac12^- ΣcD(4446)\Sigma_c D(4446), 3232\frac32 \frac32^- ΣcD(4514)\Sigma_c D^*(4514) and 3252\frac32 \frac52^- Ξccρ(4461)\Xi^*_{cc} \rho(4461) whose widths are 4.84.8, 8.08.0, 2.62.6, 2.22.2, 4.04.0 and 3.0MeV3.0\,\text{MeV}, respectively. Moreover, one shallow bound-state is found, too, with quantum numbers IJP=1232IJ^P = \frac12 \frac32^- Ξccπ(3757)\Xi^*_{cc} \pi(3757). These doubly charmed pentaquark states are expected to be identified in future experiments.

Keywords

Cite

@article{arxiv.2003.05253,
  title  = {Doubly Charmed Pentaquarks},
  author = {Gang Yang and Jialun Ping and Jorge Segovia},
  journal= {arXiv preprint arXiv:2003.05253},
  year   = {2020}
}

Comments

15 pages, 14 Tables, 11 Figures. arXiv admin note: text overlap with arXiv:1809.06193

R2 v1 2026-06-23T14:11:30.572Z