Non-linear QCD meets data: A global analysis of lepton-proton scattering with running coupling BK evolution

Abstract

We perform a global fit to the structure function F2 measured in lepton-proton experiments at small values of Bjorken-x, x 0.01, for all experimentally available values of Q2, 0.045 GeV2 Q2 800 GeV2. We show that the recent improvements resulting from the inclusion of running coupling corrections allow for a description of data in terms of non-linear QCD evolution equations. In this approach F2 is calculated within the dipole model with all Bjorken-x dependence described by the running coupling Balitsky-Kovchegov equation. Two different initial conditions for the evolution are used, both yielding excellent fits to data with 2/d.o.f.<1.1. Data for the proton longitudinal structure function FL, not included in the fits, are also well described. We provide predictions for F2 and FL in the kinematical regions of interest for future colliders and ultra-high energy cosmic rays. Our analysis allows to perform a first principle extrapolation of the proton-dipole scattering amplitude. A numerical implementation of our results down to x=10-12 is released as a computer code for public use.