$J/Ï$ at small-$x$
arXiv:hep-ph/9302263
Abstract
It has been suggested that the suppression of $J/Ï$ production in heavy nuclei is a signature of the formation of quark-gluon plasma. We here show that this phenomenon can be understood in terms of conventional physics, {\it i.e.} {\it i)} perturbative QCD, {\it ii)} the parton recombination implementation of shadowing in the initial state, and {\it iii)} final state interactions with the hadronic debris of the nuclear target. Unlike previous calculations we include both the direct $J/Ï$ production and its production via radiative $Ï$ decays ($Ï_J \to J/Ï+ γ$). We are able to reproduce the experimental data including their small-$x$ behavior. We emphasize the importance of studying the $x_2$-dependence of the ratio $Ï(b A)/Ï(b N)$, where $b$ designates the beam and $x_2$ is the momentum fraction of the parton from the nuclear target.
16 pages (6 figures not included - available from the authors), MAD/PH/742