Speaker
Dr
Maojun Yan
(ITP, CAS)
Description
The discovery of $\Xi_{cc}^{++}$ by the LHCb Collaboration triggers
predictions of more doubly charmed baryons. By taking into account both the $P$-wave
excitations between the two charm quarks and the scattering of light pseudoscalar mesons off the ground state doubly charmed baryons, a set of
negative-parity spin-1/2 doubly charmed baryons are predicted already from a unitarized version of leading order
chiral perturbation theory. Moreover, employing heavy antiquark-diquark symmetry the relevant low-energy constants in the next-to-leading order are connected with those describing light pseudoscalar mesons scattering off charmed mesons, which have been well determined from lattice calculations and experimental data. Our calculations result
in a spectrum richer than that of heavy mesons. We find two very narrow $J^P=1/2^-$ $\Omega_{cc}^P$, which very likely decay into $\Omega_{cc}\pi^0$ breaking isospin symmetry. In the isospin-1/2 $\Xi_{cc}^P$ sector, three states are predicted to exist below 4.2~GeV with the lowest one being narrow and the other two rather broad. We suggest to search for the $\Xi_{cc}^{P}$ states in the $\Xi_{cc}^{++}\pi^-$ mode. Searching for them and their analogues are helpful to establish the hadron spectrum.
Primary authors
Dr
Maojun Yan
(ITP, CAS)
Dr
Xiao-Hai Liu
(Center for Joint Quantum Studies, Department of Physics, School of Science, Tianjin University)
Co-authors
Prof.
Bingsong ZOU Bingsong
(IHEP, CAS)
Dr
Christoph Hanhart
(IAS, Forschungszentrum Juelich, Germany)
Dr
Feng-Kun Guo
(ITP, CAS)
Prof.
Ulf-G. Meissner
(Universitaet Bonn and Forschungszentrum Juelich)
