Pion-Exchange and Fermi-Motion Effects on the Proton-Deuteron Drell-Yan Process

Abstract

Within a nuclear model that the deuteron has NN and π NN components, we derive convolution formula for investigating the Drell-Yan process in proton-deuteron (pd) reactions. The contribution from the π NN component is expressed in terms of a pion momentum distribution that depends sensitively on the π NN form factor. With a π NN form factor determined by fitting the π N scattering data up to invariant mass W = 1.3 GeV, we find that the pion-exchange and nucleon Fermi-motion effects can change significantly the ratios between the proton-deuteron and proton-proton Drell-Yan cross sections, Rpd/pp = σpd/(2σpp), in the region where the partons emitted from the target deuteron are in the Bjorken x2 > 0.4 region. The calculated ratios Rpd/pp at 800 GeV agree with the available data. Predictions at 120 GeV for analyzing the forthcoming data from Fermilab are presented.