Color dipole cross section in the DGLAP improved saturation model

G. R. Boroun

doi:10.1140/epjc/s10052-022-10694-2

EPJ

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2024 Impact factor 4.8

Particles and Fields

Open Access

Eur. Phys. J. C (2022) 82: 740
https://doi.org/10.1140/epjc/s10052-022-10694-2

Regular Article - Theoretical Physics

Color dipole cross section in the DGLAP improved saturation model

G. R. Boroun^a

Physics Department, Razi University, 67149, Kermanshah, Iran

^a grboroun@gmail.com, boroun@razi.ac.ir

Received: 10 July 2022
Accepted: 6 August 2022
Published online: 24 August 2022

Abstract

We show that the geometric scaling of the dipole cross section can be explained using standard DGLAP perturbative evolution. The DGLAP-improved saturation model due to the Laplace transform method is considered at LO and NNLO approximations from the experimental data by relying on a Froissart-bounded parametrization of $F_{2} (x, Q^{2})$ $F_{2}(x,Q^{2})$ . These results are comparable with the Golec-Biernat–W $\ddot{u}$ $\ddot{\mathrm {u}}$ sthoff (GBW) model in a wide kinematic region $r Q_{s}$ $rQ_{s}$ which takes into account charm mass. The successful description of $σ_{dip} (x, r) / σ_{0}$ ${\sigma }_{\mathrm {dip}}(x,r)/\sigma _{0}$ and $σ_{dip} (r Q_{s}) / σ_{0}$ ${\sigma }_{\mathrm {dip}}(rQ_{s})/\sigma _{0}$ are presented.

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Funded by SCOAP³. SCOAP³ supports the goals of the International Year of Basic Sciences for Sustainable Development.

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