Add to ORKGPhenomenological models of the dipole cross section that enters in the description of for instance deep inelastic scattering at very high energies have had considerable success in describing the available small-x data in both the saturation region and the so-called extended geometric scaling (EGS) region. We investigate to what extent such models are compatible with the numerical solutions of the Balitsky-Kovchegov (BK) equation which is expected to describe the nonlinear evolution in x of the dipole cross section in these momentum regions. We find that in the EGS region the BK equation yields results that are qualitatively different from those of phenomenological studies. In particular, geometric scaling around the saturation scale is only...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We demonstrate that the dipole-hadron cross-section computed from the non-linear evolution equation ...
Phenomenological models of the dipole cross section that enters in the description of for instance d...
We use recently proposed method of ratios to assess the quality of geometrical scaling in deep inela...
We numerically analyze the Balitsky-Kovchegov equation with the full dependence on impact parameter ...
In a previous publication, we have established a collinearly-improved version of the Balitsky-Kovche...
In a previous publication, we have established a collinearly-improved version of the Balitsky-Kovche...
The small- deep inelastic scattering in the saturation region is governed by the nonlinear evolution...
The small- deep inelastic scattering in the saturation region is governed by the nonlinear evolution...
We study quantitatively the importance of the recently derived next-to-leading-order corrections to ...
We study quantitatively the importance of the recently derived next-to-leading-order corrections to ...
Following recent predictions that the geometric scaling properties of deep inelastic scattering data...
We study the effects of including a running coupling constant in high-density QCD evolution. For fix...
We propose to modify the saturation model of Golec-Biernat and Wusthoff by including DGLAP evolution...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We demonstrate that the dipole-hadron cross-section computed from the non-linear evolution equation ...
Phenomenological models of the dipole cross section that enters in the description of for instance d...
We use recently proposed method of ratios to assess the quality of geometrical scaling in deep inela...
We numerically analyze the Balitsky-Kovchegov equation with the full dependence on impact parameter ...
In a previous publication, we have established a collinearly-improved version of the Balitsky-Kovche...
In a previous publication, we have established a collinearly-improved version of the Balitsky-Kovche...
The small- deep inelastic scattering in the saturation region is governed by the nonlinear evolution...
The small- deep inelastic scattering in the saturation region is governed by the nonlinear evolution...
We study quantitatively the importance of the recently derived next-to-leading-order corrections to ...
We study quantitatively the importance of the recently derived next-to-leading-order corrections to ...
Following recent predictions that the geometric scaling properties of deep inelastic scattering data...
We study the effects of including a running coupling constant in high-density QCD evolution. For fix...
We propose to modify the saturation model of Golec-Biernat and Wusthoff by including DGLAP evolution...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We reproduce the deep inelastic scattering measurements of the proton structure function at high ene...
We demonstrate that the dipole-hadron cross-section computed from the non-linear evolution equation ...