On the origin of the rise of F2 at small x
Abstract
We show that, provided that the non-perturbative input is regular at the right of the ω=0 singularity of the dominant DGLAP anomalous dimension, the rise of F2 at small x, experimentally measured by the averaged observable λ = <(∂ ln F2)/(∂ ln 1/x)>, is input-independent in the perturbative Q2 regime at small x. (∂ ln xF)/(∂ ln Q2) appears to be more input-dependent in the same range. The GRV-type parametrisations verify these properties. Other models, namely the BFKL kernel(QCD dipoles), DGLAP(hard pomeron singularity) give different predictions for λ. At moderate Q2, there is a possibility of distinguishing these different perturbative QCD predictions in the near future.
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