The Negative-ΣΣ Angular-Parameter Puzzle in J/ψ and ψ(2S) Decays
Abstract
Experimental measurements of J/ψ and ψ(2S) decays to octet baryon pairs reveal a negative-ΣΣ puzzle in the angular distributions: αΣJ/ψ<0, whereas the other measured J/ψ octet channels and the corresponding ψ(2S) channels have positive angular parameters. We show that an SU(3)F-exact singlet description is strongly disfavored in a χ2 fit, giving χ2 105. By contrast, a reduced scenario in which a common final-state interaction mixes the S- and D-wave amplitudes, with an antisymmetric direct octet and a full diagonal S-D rescattering block, gives χ2=4.21 for two nominal degrees of freedom. The negative ΣΣ angular parameter is traced to the pattern of the rescattered S- and D-wave amplitudes. The apparent large SU(3)F-breaking effect is decomposed into three ingredients: the fitted D-wave source is much larger than the S-wave source, the breaking remains modest when normalized to the D wave, and D rescattering transfers the SU(3)F-breaking effect from the D wave into the small S-wave baseline, where it appears large. The largest remaining pull comes from the ψ(2S) NN angular input, motivating a renewed experimental check of ψ(2S) nn.
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