Color-octet mechanism in $γ+ p \to J/Ï+ X$
arXiv:hep-ph/9602223 · doi:10.1103/PhysRevD.54.4312 10.1103/PhysRevD.60.119902
Abstract
Photoproduction of $J/Ï$ is considered including the color-octet contributions from the various partial wave states, $^{2S+1}L_J$ = $^1S_0$, $^3S_1$ and $^3P_J$. The production cross section depends on three new nonperturbative parameters defined in NRQCD, called the color-octet matrix elements. Using the color-octet matrix elements determined by fitting the $J/Ï$ production at the Tevatron, we find that the color-octet($c\bar{c}) _{8}({^1S_0}~{\rm and~}~{^3P_J})$ contributions to the $J/Ï$ photoproductions at the fixed target experiments and HERA are too large compared to the data on $Ï(γ+ p \to J/Ï+X)$ in the forward direction, the $z$ distribution of $J/Ï$. The $P_T^2$ distribution of $J/Ï$ and the total inelastic $J/Ï$ production rate as a function of $\sqrt{s_ {γp}}$ are predicted including color-octet contributions. We also briefly digress on the $B \to J/Ï+ X$ and observe the similar situation. This may be an indication that the color-octet matrix elements determined from the $J/Ï$ production at the Tevatron, especially $<0 | {\cal O}_{8}^Ï ({^1S_0}) | 0>$ and $<0 | {\cal O}_{8}^Ï ({^3P_J}) | 0>$, might have been overestimated by an order of magnitude.
22 pages, with 12 figures(merged into one postscript file), uses eqsecnum.sty, Eqs. (A1)-(A4) are corrected