Energy Dependence of Direct-Quarkonium Production in pp Collisions from Fixed-Target to LHC Energies: Complete One-Loop Analysis

Abstract

We compute the energy dependence of the PT-integrated cross section of directly produced quarkonia in pp collisions at next-to-leading order (NLO), namely up to alphas3, within nonrelativistic QCD (NRQCD). Our analysis is based on the idea that the PT-integrated and the PT-differential cross sections can be treated as two different observables. The colour-octet NRQCD parameters needed to predict the PT-integrated yield can thus be extracted from the fits of the PT-differential cross sections at mid and large PT. For the first time, the total cross section is evaluated in NRQCD at full NLO accuracy using the recent NLO fits of the PT-differential yields at RHIC, the Tevatron and the LHC. Both the normalisation and the energy dependence of the J/psi, psi' and Upsilon(1S), we obtained, are in disagreement with the data irrespective of the fit method. The same is true if one uses CEM-like colour-octet NRQCD parameters. If, on the contrary, one disregards the colour-octet contribution, the existing data in the TeV range are well described by the alphas3 contribution in the colour-singlet model --which, at alphas4, however shows an unphysical energy dependence. A similar observation is made for eta(c,b). This calls for a full NNLO or for a resummation of the initial-state radiation in this channel. In any case, past claims that colour-octet transitions are dominantly responsible for low-PT quarkonium production are not supported by our results. This may impact the interpretation of quarkonium suppression in high-energy proton-nucleus and nucleus-nucleus collisions.