Parton densities and saturation scale from non-linear evolution in DIS on nuclei

Abstract

We present the numerical solution of the non-linear evolution equation for DIS on nuclei for x = 10-2 10-7. We demonstrate that the solution to the non-linear evolution equation is quite different from the Glauber - Mueller formula which was used as the initial condition for the equation. We illustrate the energy profit for performing DIS experiments on nuclei. However, it turns out that the gain is quite modest: xAu 5 x proton for the same parton density. We find that the saturation scale Q2s A1/3. For gold the saturation scale Qs,Au 1.5 GeV at x= 10-3. Such a large value leads to considerable contribution of the high density QCD phase to RHIC data and reveals itself in essential damping for both xGA and F2A.

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