English

Is $J^{PC}=3^{-+}$ molecule possible?

High Energy Physics - Phenomenology 2015-06-15 v2 High Energy Physics - Experiment High Energy Physics - Lattice Nuclear Theory

Abstract

The confirmation of charged charmonium-like states indiates that heavy quark molecules should exist. We here discuss the possibility of a molecule state with JPC=3+J^{PC}=3^{-+}. In a one-boson-exchange model investigation for the S wave C=+C=+ DDˉ2D^*\bar{D}_2^* states, one finds that the strongest attraction is in the case J=3J=3 and I=0I=0 for both π\pi and σ\sigma exchanges. Numerical analysis indicates that this hadronic bound state might exist if a phenomenological cutoff parameter around 2.3 GeV (1.5 GeV) is reasonable with a dipole (monopole) type form factor in the one-pion-exchange model. The cutoff for binding solutions may be reduced to a smaller value once the σ\sigma exchange contribution is included. If a state around the DDˉ2D^*\bar{D}_2^* threshold (\approx4472 MeV) in the channel J/ψωJ/\psi\omega (P wave) is observed, the heavy quark spin symmetry implies that it is not a ccˉc\bar{c} meson and the JPCJ^{PC} are likely to be 3+3^{-+}.

Keywords

Cite

@article{arxiv.1302.4496,
  title  = {Is $J^{PC}=3^{-+}$ molecule possible?},
  author = {W. Zhu and Yan-Rui Liu and T. Yao},
  journal= {arXiv preprint arXiv:1302.4496},
  year   = {2015}
}
R2 v1 2026-06-21T23:28:28.587Z