Energy loss of fast quarks in nuclei
J.M. Moss, G.T. Garvey, M.B. Johnson, M.J. Leitch, P.L. McGaughey, J.-C. Peng B.Z. Kopeliovich, I.K. Potashnikova
Abstract
We report an analysis of the nuclear dependence of the yield of Drell-Yan (DY) dimuons from the 800 GeV/c proton bombardment of ^2H, C, Ca, Fe, and W targets. A light-cone formulation of the DY process is employed in the rest frame of the nucleus. In this frame, for x_2\ll x_1, DY production appears as bremsstrahlung of a virtual photon followed by decay into dileptons. We treat the two sources of nuclear suppression, energy loss and shadowing, in a consistent formulation. Shadowing, involving no free parameters, is calculated within the light-cone dipole formalism. Initial-state energy loss, the only unknown in the problem, is determined from a fit to the nuclear-dependence ratio versus x_1. With the assumption of constant energy loss per unit path length, we find -dE/dz = 2.32 \pm 0.52\pm 0.5 GeV/fm. This is the first observation of a nonzero energy loss of partons traveling in nuclear environment.