English

Dynamically generated baryon resonances

High Energy Physics - Phenomenology 2017-08-23 v1

Abstract

Identifying a zero-range exchange of vector mesons as the driving force for the s-wave scattering of pseudo-scalar mesons off the baryon ground states, a rich spectrum of molecules is formed. We argue that chiral symmetry and large-NcN_c considerations determine that part of the interaction which generates the spectrum. We suggest the existence of strongly bound crypto-exotic baryons, which contain a charm-anti-charm pair. Such states are narrow since they can decay only via OZI-violating processes. A narrow nucleon resonance is found at mass 3.52 GeV. It is a coupled-channel bound state of the (ηcN),(DˉΣc)(\eta_c N), (\bar D \Sigma_c) system, which decays dominantly into the (ηN)(\eta' N) channel. Furthermore two isospin singlet hyperon states at mass 3.23 GeV and 3.58 GeV are observed as a consequence of coupled-channel interactions of the (DˉsΛc),(DˉΞc)(\bar D_s \Lambda_c), (\bar D \Xi_c) and (ηcΛ),(DˉΞc)(\eta_c \Lambda),(\bar D \Xi_c') states. Most striking is the small width of about 1 MeV of the lower state. The upper state may be significantly broader due to a strong coupling to the (ηΛ)(\eta' \Lambda) state. The spectrum of crypto-exotic charm-zero states is completed with an isospin triplet state at 3.93 GeV and an isospin doublet state at 3.80 GeV. The dominant decay modes involve again the η\eta' meson.

Keywords

Cite

@article{arxiv.hep-ph/0511294,
  title  = {Dynamically generated baryon resonances},
  author = {M. F. M. Lutz and J. Hofmann},
  journal= {arXiv preprint arXiv:hep-ph/0511294},
  year   = {2017}
}

Comments

Talk presented at N*2005, 10 pages, 1 figure