On the Determination of d/u Ratios from Proton-Proton and Proton-Deuteron Drell-Yan Processes

Abstract

By using the convolution formula derived within the framework of relativistic quantum mechanics, we have examined the Fermi Motion effects on the ratios Rpd/pp= sigmapd/(2 sigmapp) between the proton-proton (p-p) and proton-deuteron (p-d) Drell-Yan cross sections. We have found that in the small x2 < 0.3 region, the Fermi Motion effect is less than 1% and our results for the ratios Rpd/pp = sigmapd/(2 sigmapp) agree well with the data at 800 GeV. In the large Bjorken x2 > about 0.4 region, the p-d Drell-Yan cross sections can be influenced strongly by the Fermi motion effect. At 120 GeV the predicted Fermi Motion effect can enhance the ratios Rpd/pp by about 20% at x2 0.6 and about a factor of 2.5 at x2 -> 1.0. Our results suggest that the Fermi motion effect, along with other possible nuclear effects, must be included, in extracting the d/u ratios in the proton from the experiments on p-p and p-d Drell-Yan processes at large x2.