How well does nonrelativistic QCD factorization work at next-to-leading order?
Abstract
We perform a thorough investigation of the universality of the long distance matrix elements (LDMEs) of nonrelativistic QCD factorization based on a next-to-leading order (NLO) fit of J/ color octet (CO) LDMEs to high transverse momentum pT J/ and ηc production data at the LHC. We thereby apply a novel fit-and-predict procedure to systematically take into account scale variations, and predict various observables never studied in this context before. In particular, the LDMEs can well describe J/ hadroproduction up to the highest measured values of pT, as well as (nS) production via potential NRQCD based relations. Furthermore, J/ production in γ γ and γ p collisions is surprisingly reproduced down to pT=1 GeV, as long as the region of large inelasticity z is excluded, which may be of significance in future quarkonium studies, in particular at the EIC and the high-luminosity LHC. In addition, our summary reveals an interesting pattern as to which observables still evade a consistent description.
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