The Decay ηc → γ γ : A Test for Potential Models

Abstract

We use a simple perturbation theory argument and measurements of charmonium leptonic widths (NS → e+e-) to estimate the ratio R ηc1S(0) 2 /_1 S(0)2 in the general context of non- relativistic potential models. We obtain R = 1.4 0.1. We then apply well known potential model formulas, which include lowest order QCD corrections, to find (ηc → γ γ )/ (1S → e+e-) ≈ 2.2 0.2. The central value for (1S → e+ e-)in the 1992 Particle Data Tables then leads to a (non relativistic) prediction (ηc → γ γ )≈ 11.8 0.8 keV. This prediction is in good agreement with a recent measurement by the ARGUS collaboration, is consistent with a recent measurement by the L3 collaboration but is significantly higher than several earlier measurements and than previous theoretical estimates, which usually assume R =1. The correction to R =1 is estimated to be smaller but nonnegligible for the b b system. Using the current central measurement for (1S→ e+e-) we find (ηb→ γ γ )≈ 0.58 0.03 keV. A rough estimate of relativistic corrections reduces the expected two photon rates to about 8.8 keV and 0.52 keV for the ηc and ηb mesons respectively. Such corrections

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