Anatomy of the differential gluon structure function of the proton from the experimental data on F2p
Abstract
The use of the differential gluon structure function of the proton F(x,Q2) introduced by Fadin, Kuraev and Lipatov in 1975 is called upon in many applications of small-x QCD. We report here the first determination of F(x,Q2) from the experimental data on the small-x proton structure function F2p(x,Q2). We give convenient parameterizations for F(x,Q2) based partly on the available DGLAP evolution fits (GRV, CTEQ & MRS) to parton distribution functions and on realistic extrapolations into soft region. We discuss an impact of soft gluons on various observables. The x-dependence of the so-determined F(x,Q2) varies strongly with Q2 and does not exhibit simple Regge properties. None the less the hard-to-soft diffusion is found to give rise to a viable approximation of the proton structure function F2p(x,Q2) by the soft and hard Regge components with intercepts soft=0 and hard 0.4.
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