First measurements of the branching fractions for the decay modes c0 η and c0 η' and search for the decay c0 π0 using Belle and Belle II data
Abstract
Using data samples of 988.4 fb-1 and 427.9 fb-1 collected with the Belle and Belle II detectors, we present a study of the singly Cabibbo-suppressed decays c0 η, η', and π0. We observe the decay c0 η and find evidence for the decay c0 η', with corresponding branching ratios determined to be B(c0 η)/B(c0 - π+)= (4.16 0.91 0.23)\% and B(c0 η')/B(c0 - π+)= (2.48 0.82 0.12)\%, respectively. We find no significant signal in the c0 π0 decay mode and set an upper limit at the 90% credibility level of B(c0 π0)/B(c0 - π+)< 3.5\%. Multiplying these ratios by the world-average branching fraction of the normalization channel, B(c0 - π+)=(1.43 0.27)\%, we obtain the absolute branching fractions of B(c0 η)= (5.95 1.30 0.32 1.13) × 10-4, B(c0 η')= (3.55 1.17 0.17 0.68) × 10-4, and an upper limit at the 90% credibility level on the absolute branching fraction of B(c0 π0)< 5.2 × 10-4. The quoted first and second uncertainties are statistical and systematic, respectively, while the third uncertainties arise from the branching fraction of the normalization mode. These results are consistent with most theoretical predictions and further the understanding of the underlying decay mechanisms.
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