Nuclear shadowing in photoproduction of $\rho$ mesons in ultraperipheral nucleus collisions at RHIC and the LHC

TL;DR

This paper develops a model combining vector meson dominance and Gribov-Glauber approximation to account for nuclear shadowing effects in $ ho$ meson photoproduction during ultraperipheral collisions, successfully matching existing data and predicting cross sections at LHC energies.

Contribution

It introduces an upgraded vector meson dominance model incorporating high-mass photon fluctuations and cross section fluctuations for nuclear shadowing, improving predictions for $ ho$ meson photoproduction in heavy ion collisions.

Findings

Successfully describes existing $ ho$ photoproduction data in heavy ion UPCs.

Predicts the coherent $ ho$ photoproduction cross section at LHC energies.

Highlights the importance of inelastic diffraction and nuclear shadowing effects.

Abstract

We argue that with an increase of the collision energy, elastic photoproduction of $\rho$ mesons on nuclei becomes affected by the significant cross section of photon inelastic diffraction into large masses, which results in the sizable inelastic nuclear shadowing correction to $\sigma_{\gamma A \to \rho A}$ and the reduced effective $\rho$-nucleon cross section. We take these effects into account by combining the vector meson dominance model, which we upgrade to include the contribution of high-mass fluctuations of the photon according to QCD constraints, and the Gribov-Glauber approximation for nuclear shadowing, where the inelastic nuclear shadowing is included by means of cross section fluctuations. The resulting approach allows us to successfully describe the data on elastic $\rho$ photoproduction on nuclei in heavy ion UPCs in the $7 \ {\rm GeV} < W_{\gamma p} < 46$ GeV energy range and to predict the value of the cross section of coherent $\rho$ photoproduction in Pb-Pb UPCs at $\sqrt{s_{NN}}=5.02$ TeV in Run 2 at the LHC, $d\sigma_{Pb Pb \to \rho Pb Pb} (y=0)/dy= 560 \pm 25$ mb.