Investigating c spectroscopy in two-body b decays
Abstract
We investigate the 1S-, 1P-, 2S-, and 1D-wave c(css) spectroscopy through the non-leptonic decays of b- baryon within the constituent quark model. For the lowest-lying 1S-wave c state, we obtain the branching fractions B(b- c0 π-,c0 -)=(1.2,6.3) × 10-3, which are consistent with existing model predictions. For c(3000), c(3050), c(3065), and c(3090), observed in the proton-proton and e+ e- collisions and interpreted as members of the 1P-wave multiplet (collectively denoted as c**), we predict the branching fractions of b-c**π-,c**- at the level of 10-3. Assigning the newly observed c(3327) baryon to a 1D-wave excitation with JP=5/2+ or 7/2+, we obtain B[b- c(3327)0π-,c(3327)0-] =(2.0,5.7)× 10-3 or (4.6,0.8)× 10-3, respectively. The pronounced differences between these two scenarios provide a clear discriminant that can be tested in future measurements at LHCb.
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