DIS at small x and hadron-hadron scattering at high energies via the holographic Pomeron exchange

TL;DR

This paper uses holographic QCD and Pomeron exchange models to analyze high energy scattering processes, including deep inelastic scattering at small x and hadron-hadron collisions, achieving results consistent with experimental data.

Contribution

It introduces a holographic approach employing the Pomeron exchange kernel and AdS/QCD models to describe high energy scattering, providing a unified framework for different processes.

Findings

Calculations align with existing experimental data on small x DIS and hadron-hadron scattering.

Predictions for future experiments are made based on the holographic Pomeron exchange model.

The framework effectively describes strong gluonic interactions in high energy collisions.

Abstract

We present our analysis on the high energy scattering processes in the framework of the holographic QCD, assuming that the Pomeron exchange gives a dominant contribution to the cross sections. Focusing on the two-body scattering, we employ the Brower-Polchinski-Strassler-Tan Pomeron exchange kernel to describe the strong gluonic interaction, and utilize the bottom-up AdS/QCD models to obtain the density distributions of the involved hadrons in the five-dimensional AdS space, to calculate the total cross sections. Considering the unpolarized deep inelastic scattering at small Bjorken $x$ and the high energy hadron-hadron scattering, we show that our calculations are consistent with the presently available experimental data. Our predictions made via this framework can be tested at various experimental facilities in the future.