New puzzle in charmonium decays *

Abstract: By analyzing existing data on pseudoscalar charmonium decays, we obtain the ratio of the branching fractions of $\eta_c'$ and $\eta_c$ decays into ten different final states with light hadrons. For the first time, we test the two existing theoretical predictions of these decays, and find that the experimental data are significantly different from both of them. The lack of observation of any decay mode with higher rate in $\eta_c'$ than in $\eta_c$ decays suggests very unusual decay dynamics in pseudoscalar cha… Show more

“…To estimate the uncertainty of the assumption of no interference in the nominal fit, we include the contribution from possible interference into the mass spectrum fit and take the differences of the measured branching fractions and the measured mass and width of η c (2S) relative to the , where f = 3(π + π − ), and absolute systematic uncertainties in the ηc(2S) mass (MeV/c 2 ) and width (MeV) measurements. For the ηc(2S) → 3(π + π − ) mode, the value in parentheses is the total systematic uncertainty without including the uncertainty from B(ψ ′ → γηc(2S)) [13]. nominal ones as the uncertainty.…”

“…Using information on light hadronic final states [12], authors of Ref. [13] recently examined this branching fraction ratio in several decay modes and found that the experimental data are significantly different from both of the two theoretical predictions.…”

Observation of $η_c(2S) \to 3(π^+π^-)$ and measurements of $χ_{cJ} \to 3(π^+π^-)$ in $ψ(3686)$ radiative transitions

“…To estimate the uncertainty of the assumption of no interference in the nominal fit, we include the contribution from possible interference into the mass spectrum fit and take the differences of the measured branching fractions and the measured mass and width of η c (2S) relative to the , where f = 3(π + π − ), and absolute systematic uncertainties in the ηc(2S) mass (MeV/c 2 ) and width (MeV) measurements. For the ηc(2S) → 3(π + π − ) mode, the value in parentheses is the total systematic uncertainty without including the uncertainty from B(ψ ′ → γηc(2S)) [13]. nominal ones as the uncertainty.…”

“…Using information on light hadronic final states [12], authors of Ref. [13] recently examined this branching fraction ratio in several decay modes and found that the experimental data are significantly different from both of the two theoretical predictions.…”

Observation of $η_c(2S) \to 3(π^+π^-)$ and measurements of $χ_{cJ} \to 3(π^+π^-)$ in $ψ(3686)$ radiative transitions

First-principle calculation of the ηc→2γ decay width from lattice QCD

Observation of ηc(2S)→3(π+π−) and meas