Nuclear suppression of coherent J/ photoproduction in heavy-ion UPCs and leading twist nuclear shadowing

Abstract

We determine the nuclear suppression factor SPb(x), where x=MJ/2/Wγ p2 with MJ/ the J/ mass and Wγ p the photon-nucleon energy, for the cross section of coherent J/ photoproduction in heavy-ion ultraperipheral collisions (UPCs) at the Large Hadron Collider (LHC) and Relativistic Heavy Ion Collider (RHIC) by performing the 2 fit to all available data on the cross section dσAA J/ AA/dy as a function of the J/ rapidity y and the photoproduction cross section σγ A J/ A(Wγ p) as a function of Wγ p. We find that while the dσAA J/ AA/dy data alone constrain SPb(x) for x ≥ 10-3, the combined dσAA J/ AA/dy and σγ A J/ A(Wγ p) data allow us to determine SPb(x) in the wide interval 10-5 < x < 0.05. In particular, the data favor SPb(x), which decreases with a decrease of x in the 10-4 < x < 0.01 interval, and can be both decreasing or constant for x< 10-4. Identifying SPb(x) with the ratio of the gluon distributions in Pb and the proton Rg(x,Q02)=gA(x,Q02)/[A gp(x,Q02)], we demonstrate that the leading twist approximation (LTA) for nuclear shadowing provides a good description of all the data on dσAA J/ AA/dy and σγ A J/ A(Wγ p) as well as on the experimental values for SPb(x) derived from σγ A J/ A(Wγ p). We also show that modern nuclear PDFs reasonably reproduce SPb(x) as well.

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