Color dipole cross section in the DGLAP improved saturation model
Abstract
We show that the geometric scaling of the dipole cross section can be explained using standard DGLAP perturbative evolution. The DGLAP improved saturation model due to the Laplace transforms method is considered at LO and NNLO approximations from the experimental data by relying on a Froissart-bounded parametrization of F2(x,Q2). These results are comparable with Golec-Biernat-Wusthoff (GBW) model in a wide kinematic region rQs which takes into account charm mass. The successful description of σdip(x,r)/σ0 and σdip(rQs)/σ0 are presented.
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