Energy-dependent dipole form factor in a QCD-inspired model

C. A. S. Bahia; M. Broilo; E.G.S. Luna

arXiv:1508.07359·hep-ph·June 22, 2016

Energy-dependent dipole form factor in a QCD-inspired model

C. A. S. Bahia, M. Broilo, E.G.S. Luna

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TL;DR

This paper introduces an energy-dependent dipole form factor within a QCD-inspired eikonal model to analyze high-energy proton-proton and antiproton-proton scattering, successfully matching recent experimental data.

Contribution

It presents a novel energy-dependent dipole form factor in a QCD-based eikonal model, linking parton dynamics to hadron scattering at high energies.

Findings

01

Results align with recent TOTEM data on total cross sections.

02

The model effectively describes high-energy scattering behavior.

03

Incorporates CTEQ6L1 parton distribution functions for predictions.

Abstract

We consider the effect of an energy-dependent dipole form factor in the high-energy behavior of the forward amplitude. The connection between the semihard parton-level dynamics and the hadron-hadron scattering is established by an eikonal QCD-based model. Our results for the proton-proton ( $pp$ ) and antiproton-proton ( $\overset{p}{ˉ} p$ ) total cross sections, $σ_{t o t}^{pp, \overset{p}{ˉ} p} (s)$ , obtained using the CTEQ6L1 parton distribution function, are consistent with the recent data from the TOTEM experiment.

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