Relativistic Correction to J/ Production at Hadron Colliders

Abstract

Relativistic corrections to the color-singlet J/ hadroproduction at the Tevatron and LHC are calculated up to O(v2) in nonrelativistic QCD (NRQCD). The short distance coefficients are obtained by matching full QCD with NRQCD results for the subprocess g+g J/+g. The long distance matrix elements are extracted from observed J/ hadronic and leptonic decay widths up to O(v2). Using the CTEQ6 parton distribution functions, we calculate the LO production cross sections and relativistic corrections for the process p+p(p) J/+X at the Tevatron and LHC. We find that the enhancement of O(v2) relativistic corrections to the cross sections over a wide range of large transverse momentum pt is negligible, only at a level of about 1 %. This tiny effect is due to the smallness of the correction to short distance coefficients and the suppression from long distance matrix elements. These results indicate that relativistic corrections can not help to resolve the large discrepancy between leading order prediction and experimental data for J/ production at the Tevatron.