Soft end-point and mass corrections to the eta' g*g* vertex function

Abstract

Power-suppressed corrections arising from end-point integration regions to the space-like vertex function of the massive eta'-meson virtual gluon transition eta' - g*g* are computed. Calculations are performed within the standard hard-scattering approach (HSA) and the running coupling method supplemented by the infrared renormalon calculus. Contributions to the vertex function from the quark and gluon contents of the eta' -meson are taken into account and the Borel resummed expressions for Feta' g*g*(Q2,ω ,η), as well as for Feta' g g*(Q2,ω = 1,η) and Feta' g*g*(Q2,ω =0,η) are obtained. It is demonstrated that the power-suppressed corrections ( 2/Q2)n, in the explored range of the total gluon virtuality 1 <Q2 < 25 GeV2, considerably enhance the vertex function relative to the results found in the framework of the standard HSA with a fixed coupling. Modifications generated by the eta ' -meson mass effects are discussed.