22–26 Apr 2013
Marseille, Parc Chanot
Europe/Monaco timezone

Revising the Impact-Parameter dependent Saturation model with combined HERA data

23 Apr 2013, 08:50
20m
Endoume 2 (Palais des Congrès)

Endoume 2

Palais des Congrès

Talk in Parallel Session at DIS2013 Small-x, Diffraction and Vector Mesons WG2: Low x and Diffraction

Speaker

Dr Amir Rezaeian (Universidad Técnica Federico Santa María)

Description

The Impact-Parameter dependent Saturation Model is a simple dipole model that incorporates key features of the physics of gluon saturation and matches smoothly to the perturbative QCD dipole expression at large Q^2 for a given x. It was previously shown that the model gives a good description of HERA data suggesting evidence for gluon saturation effects at small x. The model has also been applied to proton-proton and proton-nucleus collisions and provides the basis for the IP-Glasma model of initial conditions in heavy ion collisions. Here we present a reanalysis of available data in electron-proton collisions at small Bjorken-x, including the recently released combined data from the ZEUS and H1 collaborations. We first confront the model to the high precision combined data for the reduced cross-section and obtain its parameters. With these parameters fixed, we compare model results to data for the structure function F_2, the longitudinal structure function F_L, the charm structure function F_2^{c\bar{c}}, exclusive vector meson (J/\psi, \phi and \rho) production and Deeply Virtual Compton Scattering (DVCS). Excellent agreement is obtained for the processes considered at small x in a wide range of Q^2. Our results strongly hint at universality of the IP-Sat dipole amplitude and the extracted impact-parameter distribution of the proton. They also provide a benchmark for further refinements in studies of QCD saturation at colliders. This work is based on: A. H. Rezaeian, M. Siddikov, M. Van de Klundert and R. Venugopalan, Phys. Rev. D87, 034002 (2013) [arXiv:1212.2974].

Author

Dr Amir Rezaeian (Universidad Técnica Federico Santa María)

Co-authors

Dr Marat Siddikov (Universidad Técnica Federico Santa María) Dr Raju Venugopalan (BNL)

Presentation materials