Cold Nuclear Matter Effects on jpsi Production with Extrinsic pT at $\sqrt{s_{NN}}=5.5\mathrm{~TeV}$ at the LHC
arXiv:1101.5295
Abstract
Taking into account the gluon shadowing and the $J/Ï$ nuclear absorption, we evaluate the Cold Nuclear Matter (CNM) effects on $J/Ï$ production in $p$Pb and PbPb collisions at the design LHC energy for PbPb collisions, $\sqrt{s_{NN}}=5.5$ TeV. In view of the good agreement between the yield prediction using the LO CSM and the ALICE data at 7 TeV, we employ the latter model to use a complete description of the kinematics of the underlying $2 \rightarrow 2$ partonic process, namely $g + g \rightarrow J/Ï+ g$. We observe a large $J/Ï$ suppression in $p$Pb and PbPb collisions due to the strong shadowing of the gluon distribution in the lead ion at the corresponding gluon momentum fractions. This suppression from CNM effects has a strong rapidity dependence which may compensate, partially or completely, that of of the predicted charm recombination in PbPb collisions.
4 pages, 2 figures, talk given by N. Matagne at the conference "ICPAQGP-2010", Goa, India, 6-10 December 2010, submitted to Nuclear Physics A