Jan Nemchik
Published 2008-03-12Version 1
We study nuclear shadowing at small Bjorken x < 0.01 in the color dipole approach. Such a light-cone quantum-chromodynamics formalism based on the Green function technique incorporates naturally color transparency and coherence length effects. The nuclear shadowing for the barq-q Fock component of the photon is calculated using exact numerical solution of the evolution equation for the Green function. At x < 0.01 we demonstrate that a contribution of higher Fock states containing gluons to overall nuclear shadowing becomes effective. Numerical results for nuclear shadowing are compared with available data from the E665 and NMC collaborations. Model calculations are finally tested with the results obtained from other models.
Comments: 16 pages, 5 figures, talk given at the Workshop on High-pT Physics at LHC (LHC07), Jyvaskyla, Finland, 23-27 Mar 2007. Published in PoS(LHC07)028
Journal: PoSLHC07:028,2007
Incoherent diffractive photoproduction of $J/ψ$ and $Υ$ on heavy nuclei in the color dipole approach
Diffractive DIS: Where Are We?
The color dipole approach to the Drell-Yan process in pA collisions
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