A dispersive analysis of low energy pion photo- and electroproduction

Abstract

A dispersive representation based on unitarity and analyticity is used to study the low energy γ N π N\ and\ γ* N π N partial wave amplitudes. Final state interactions of the π N system are critical to this analysis. The left-hand cut contribution is estimated by invoking baryon chiral perturbation theory results, while the right-hand cut contribution responsible for final state interaction effects is taken into account via an Omn\`es formalism with elastic phase shifts as input. It is found that a good numerical fit can be achieved with only one subtraction parameter, and the experimental data of the multipole amplitudes E0+, S0+ in the energy region below the (1232) are well described when the photon virtuality Q2 ≤ 0.1 GeV2. Furthermore, we extend the partial wave amplitudes to the second Riemann sheet to extract the couplings of the subthreshold resonance N*(890). Its couplings extracted from the multipole amplitudes E0+, S0+ are comparable to those of the N* (1535) resonance.