CGC and saturation approach: Impact-parameter dependent model of perturbative QCD and combined HERA data

Abstract

In this paper we confront the CGC/saturation approach of Ref.~CLMS with the experimental combined HERA data and obtain its parameters. The model includes two features that are in accordance with our theoretical knowledge of deep inelastic scattering. These consist of: i) the use of analytical solution for the non-linear Balitsky-Kovchegov (BK) evolution equation and ii) the exponential behavior of the saturation momentum on the impact parameter b-dependence, characterized by Qs (-mb) which reproduces the correct behavior of the scattering amplitude at large b in accord with Froissart theorem. The model results are then compared to data at small-x for the structure-function of the proton F2, the longitudinal structure function FL, the charm structure function F2cc, the exclusive vector meson (J/ψ,ϕ,ρ) production and Deeply Virtual Compton Scattering (DVCS). We obtain a good agreement for the processes in a wide kinematic range of Q2 at small-x. Our results provide a strong guide for finding an approach, based on Color Glass Condensate/saturation effective theory for high energy QCD, to make reliable predictions from first principles and for forthcoming experiments like the Electron-Ion Collider and the LHeC.