Three-body charmed baryon Decays with SU(3) flavor symmetry

Abstract

We study the three-body anti-triplet Bc BnMM' decays with the SU(3) flavor (SU(3)f) symmetry, where Bc denotes the charmed baryon anti-triplet of (c0,-c+,c+), and Bn and M(M') represent baryon and meson octets, respectively. By considering only the S-wave MM'-pair contributions without resonance effects, the decays of Bc BnMM' can be decomposed into irreducible forms with 11 parameters under SU(3)f, which are fitted by the 14 existing data, resulting in a reasonable value of 2/d.o.f=2.8 for the fit. Consequently, we find that the triangle sum rule of A(c+ n K0 π+)- A(c+ pK- π+)- 2 A(c+ p K0 π0)=0 given by the isospin symmetry holds under SU(3)f, where A stands for the decay amplitude. In addition, we predict that B(c+ n π+ K0)=(0.9 0.8)× 10-2, which is 3-4 times smaller than the BESIII observation, indicating the existence of the resonant states. For the to-be-observed Bc BnMM' decays, we compute the branching fractions with the SU(3)f amplitudes to be compared to the BESIII and LHCb measurements in the future.