Decay chain information on the newly discovered double charm baryon state cc++

Abstract

We interprete the new double charm baryon state found by the LHCb Collaboration in the invariant mass distribution of the set of final state particles (c+\,K-\,π+\,π+) as being at the origin of the decay chain cc++ c++ ( c+ π+) + K*0 ( K- π+). The nonleptonic decay cc++ c++ + K*0 belongs to a class of decays where the quark flavor composition is such that the decay proceeds solely via the factorizing contribution precluding a contamination from internal W-exchange. We use the covariant confined quark model previously developed by us to calculate the four helicity amplitudes that describe the dynamics of the transition cc++ c++ induced by the effective (c u) current. We then proceed to calculate the rate of the decay as well as the polarization of the c++ and c+ baryons and the longitudinal/transverse composition of the K*0. We estimate the decay cc++ c++ K*0 to have a branching rate of B(cc++ c++ K*0) 10.5 \%. As a byproduct of our investigation we have also analyzed the decay cc++ c++ K0 for which we find a branching ratio of B(cc++ c++ K0) 2.5 \%.