An Analysis of the Inclusive Decay (1S) η X and Constraints on the η-Meson Distribution Amplitudes
Abstract
We calculate the η-meson energy spectrum in the decay (1S) η g g g η X in the leading-order perturbative QCD in the static quark limit for the Orthoquarkonium. Our principal result is the extraction of parameters of the η g* g effective vertex function (EVF) involving a virtual and a real gluon from the available data on the hard part of the η-meson energy spectrum. The perturbative QCD based framework provides a good description of the available CLEO data, allowing to constrain the lowest Gegenbauer coefficients B(q)2 and B(g)2 of the quark-antiquark and gluonic distribution amplitudes of the η-meson. The resulting constraints are combined with the existing ones on these coefficients from an analysis of the η-γ and η-γ transition form factors and the requirement of positivity of the EVF, yielding B(q)2(μ02) = -0.008 0.054 and B(g)2(μ02) = 4.6 2.5 for μ02 = 2 GeV2. This reduces significantly the current uncertainty on these coefficients. The resulting EFV Fη g* g (p2, 0, mη^2), including the η-meson mass effects, is presented.
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