A QCD Calculation of the Interaction of Quarkonium with Nuclei
arXiv:hep-ph/9204219 · doi:10.1016/0370-2693(92)91114-O
Abstract
The interaction of quarkonium with nuclei is studied in the $m_Q\rightarrow \infty$ limit of QCD, where the binding energy is found to be exactly computable. The dominant contribution to the interaction is from two-gluon operators. The forward matrix elements of these two-gluon operators can be determined from the QCD scale anomaly, and from deep inelastic scattering. We apply our results to the $Î¥$ and $J/Ï$, treating the $\qqbar$ interaction as purely Coulombic. We find the $Î¥$ binds in nuclear matter with a binding energy of a few $\mev$, while for the $J/Ï$ binding is of order 10 $\mev$. For the $J/Ï$ in particular we expect confinement effects to produce large corrections to this result.
(10 pages)