Relativistic corrections to gluon fragmentation into the 3PJ[1,8] states

Abstract

We compute relativistic corrections to the gluon fragmentation functions to 3PJ[1,8] Fock states of heavy quarkonium within non-relativistic QCD factorization framework. We find that, at O(v2) sub-leading order, the S-D mixing effect must be taken into account to absorb the infrared divergence of spin-triplet P-wave production within full QCD into the NRQCD long-distance matrix elements. Unlike the S-wave case, we find that the short-distance coefficients of the fragmentation functions at leading and sub-leading order are no longer proportional to each other. However, upon convolution with the gluon production cross section, their ratios are almost constant across the whole pT region. We find the relativistic corrections to be negative and substantial, which makes them a non-negligible ingredient in the study of J/ production at the LHC.