An AdS/QCD holographic wavefunction for the rho meson

J. R. Forshaw; R. Sandapen

arXiv:1207.4358·hep-ph·July 19, 2012

An AdS/QCD holographic wavefunction for the rho meson

J. R. Forshaw, R. Sandapen

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TL;DR

This paper employs an AdS/QCD holographic wavefunction to predict rho meson electroproduction rates, achieving reasonable agreement with experimental data from HERA, thus bridging holographic models and experimental observations.

Contribution

It introduces a holographic wavefunction approach within AdS/QCD to predict rho meson production, providing a novel link between theory and experiment.

Findings

01

Predicted electroproduction rates match HERA data reasonably well.

02

Demonstrates the effectiveness of holographic models in describing meson production.

03

Provides a new tool for studying non-perturbative QCD phenomena.

Abstract

We use an AdS/QCD holographic wavefunction to generate predictions for the rate of diffractive {\rho}-meson electroproduction that are in reasonable agreement with data collected at the HERA electron-proton collider.

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