Resolving puzzle in c0 -e+e with c-c' mixing

Abstract

We study the ratio of R=2 (c0 - e+ e )/3(c+ e+ e ), which is found to be R= 1 (0.8) from the exact (broken) SU(3) flavor symmetry, in sharp contrast to the average value of Rav=0.59 0.10 from the ALICE collaboration and lattice QCD results. We propose to use the mixing of c-c' to resolve the puzzle. With the model-independent mass relations, we find that the mixing angle is |θc| = 0.137(5)π, which suppresses c e+ e about 20\% model-independently, resulting in R≈ 0.6 with the SU(3) flavor breaking effect. We explicitly demonstrate that R= 0.70 0.09 from the bag model, which is also consistent with Rav. To test the mixing mechanism, we recommend the experiments to measure the decays of c '(1530) e+ e, whose branching fractions are determined to be ( 4.4 8.7)× 10-3 and (1.3 2.6 )\% for c0 and c+, respectively, but vanish without the mixing. In addition, nonvanishing values of B(c+ 0 (1530)π+ ) and B(c+ + (1530) K0 ) will also be evidences of the mixing based on the K\"oner-Pati-Woo theorem, which are calculated as (3.8 7.5)× 10-3 and (6.6 13)× 10 -4, respectively. We emphasize that θc is sizable and should be given serious considerations in future studies on the heavy baryon systems.