Rho meson photoproduction at low energies

Abstract

The σ-exchange and f2-exchange mechanisms for meson photoproduction are re-examined. Then the commonly employed σ-exchange amplitude is revised by using the recent information from the analyses on the π0π0γ decay and the σ NN coupling constant from Bonn potential. Instead of relying on the Pomeron-f proportionality assumption, the f2 meson exchange amplitude is established from an effective Lagrangian which is constructed from the tensor structure of the f2 meson. Phenomenological information together with tensor meson dominance and vector meson dominance assumptions are used to estimate the f2 coupling constants. As a first step to improve the current theoretical models, we have also explored the effects due to the un-correlated 2π exchange amplitude with π N intermediate state. This leading-order 2π exchange amplitude can be calculated using the coupling constants determined from the study of pion photoproduction and the empirical width of ππ decay. In comparing with the existing differential cross section data, we find that a model with the constructed 2π, σ, and f2 exchanges is comparable to the commonly used σ exchange model in which the σ coupling parameters are simply adjusted to fit the experimental data. We suggest that experimental verifications of the predicted single and double spin asymmetries in the small |t| ( < 2 GeV2) region will be useful for distinguishing the two models and improving our understanding of the non-resonant amplitude of photoproduction. Possible further improvements of the model are discussed.

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