Quantum Numbers of c States and Other Charmed Baryons

Abstract

Possible spin-parity quantum numbers for excited charmed baryon resonances are discussed in this work. Our main results are: (i) Among the five newly observed c states, we have identified c(3090) and c(3119) with radially excited 12+(2S) and 32+(2S) states, respectively, and c(3000) with 12-(1P) and S=32. The two states c(3050) and c(3066) form a P-wave (32-,52-) doublet. (ii) The widths of c(3066) and 'c(2930) are calculable within the framework of heavy hadron chiral perturbation theory. (iii) Since the width of c0(12-) is of order 410 MeV, not all observed narrow c baryons can be identified with 1P states. (iv) For the antitriplet c and c states, their Regge trajectories for the orbital excitations of 12- and 32- are parallel to each other. Based on this nice property of parallelism, we see that the highest state c(2940) does not fit if its quantum numbers are 32- as found by LHCb. We suggest that c(2940)+ is most likely the 12-(2P) state. (v) The charmed baryon c(2800) cannot be a 12- state; otherwise, its width will be over 400~MeV, too large compared to the measured one. (vi) In the study of Regge trajectories of 'c states, we find a missing state. It should have quantum numbers 52- with a mass around 2920~MeV.