Three-gluon decays of radially excited quarkonia ψ(2S) and Υ(2S) with both relativistic and QCD radiative corrections

Abstract

For the radially excited heavy quarkonia V=ψ(2S) and Υ(2S), the nodal structure of the wave function renders the three-gluon decay V ggg acutely sensitive to relativistic corrections, a longstanding challenge for reliable theoretical predictions. Within the Bethe-Salpeter formalism under the covariant instantaneous ansatz, we construct analytic harmonic-oscillator wave functions incorporating the 2S node and derive model-independent relations among the polarized decay widths from helicity-flip and phase-space symmetries. Motivated by the strikingly slow q2-order convergence driven by destructive interference at the node, we introduce a concise phenomenological treatment of the higher-order contributions that preserves the correct low-momentum limit. Including both relativistic and QCD radiative corrections, our predictions for Γ(V ggg), Γ(V e+e-) and RV agree well with experiment, and the extracted βV lies at the lower end of typical phenomenological ranges, reflecting a more localized momentum-space wave function.