Studying $\pi^+\pi^-$ photoproduction beyond Pomeron exchange

TL;DR

This paper challenges the traditional view that Pomeron exchange solely explains forward $^+^-$ photoproduction near the $$ resonance mass, proposing a new model incorporating additional resonant contributions to better fit experimental data.

Contribution

It introduces a novel theoretical model that combines Pomeron exchange with resonant contributions, improving the understanding of two-pion photoproduction mechanisms.

Findings

The model fits the CLAS data well for low angular moments.

Pomeron exchange alone cannot explain the data at higher momentum transfer.

Resonant contributions are significant in the photoproduction process.

Abstract

Forward photoproduction of $\pi^+\pi^-$ pairs with invariant mass of the order of $m_\rho\sim 770$ MeV is traditionally understood to be produced via Pomeron exchange. Based on a detailed analysis of the CLAS photoproduction data, it is shown that the dynamics of two-pion photoproduction for $|t|\gtrsim 0.5$ GeV$^2$ cannot be explained by Pomeron exchange alone. This motivates the development of a new theoretical model of two-pion photoproduction which incorporates both two-pion and pion-nucleon resonant contributions. After fitting free parameters, the model provides an excellent description of the low moments of the angular distribution measured at CLAS, and enables an assessment of the relative contributions of particular production mechanisms and an interpretation of the various features of the data in terms of these mechanisms.