Strong decays of the low-lying 1P- and 1D-wave c baryons

Abstract

In this work, we systematically study the OZI-allowed two-body strong decay properties of 1P- and 1D-wave c baryons within the j -j coupling scheme in the framework of the quark pair creation model. For a comparison, we also give the predictions of the chiral quark model. Some model dependencies can be found in the predictions of two models. The calculations indicate that: (i) The 1P-wave λ-mode c states most likely to be relatively narrow states with a width of <80 MeV. Their main decay channels are cπ, or cπ, or c*π. The 1P-wave -mode states most might be broad states with a width of 100-200 MeV. They dominantly decay into cπ and c*π channels. Some evidences of these 1P-wave states are most likely to be observed in the cπ and cππ invariant mass spectra around the energy range of 2.75-2.95 GeV. (ii) The 1D-wave λ-mode c excitations may be moderate states with a width of about dozens of MeV. The 1D-wave λ-mode states mainly decay into the 1P-wave charmed baryon via the pionic decay processes. Meanwhile, several 1D-wave λ-mode states have significant decay rates into DN or D*N. Hence, the DN and D*N are likely to be interesting channels for experimental exploration. (iii) Furthermore, the two 1D-wave -mode excitations c|JP=5/2+,3 and |JP=7/2+,3 are most likely to be fairly narrow state with a width of dozens of MeV, and they mainly decay into cπ. Some evidences of them might be observed in the cπ invariant mass spectra around the energy range of 3.1-3.2 GeV.