One-loop impact factors for heavy quarkonium production: S-wave case

Abstract

With the aim to extend the study of inclusive heavy quarkonium production at forward rapidities with the resummation of high partonic center-of-momentum-energy logarithms beyond Leading Logarithmic Approximation (LLA), the explicit analytic results for one-loop corrections to the following impact factors had been obtained: γ R QQ[1S0[8] ], g R QQ[1S0[1] ], gR QQ[ 1S0[8] ] and gR QQ[ 3S1[8]], with R being the Reggeized gluon and Q is the heavy quark. The computation is done in the framework of Lipatov's gauge-invariant EFT for Multi-Regge processes in QCD with the tilted-Wilson-line regularisation for rapidity divergences. As expected, only single-logarithmic rapidity divergence proportional to the one-loop Regge trajectory of a gluon remains in the final result for impact-factors. Numerical comparison with Regge limits (s/(-t) 1) of one-loop QCD amplitudes, described in the paper, provides a strong cross-check of obtained results. The relations of obtained results with other regularisation schemes for rapidity divergences used in low-x physics, such as BFKL scheme, High-Energy Factorisation (HEF) scheme and shockwave scheme, are given.