Dispersive analysis of low energy $gamma^* Nrightarrowpi N$ process


Abstract in English

We use a dispersion representation based on unitarity and analyticity to study the low energy $gamma^* Nrightarrow pi N$ process in the $S_{11}$ channel. Final state interactions among the $pi N$ system are critical to this analysis. The left-hand part of the partial wave amplitude is imported from $mathcal{O}(p^2)$ chiral perturbation theory result. On the right-hand part, the final state interaction is calculated through Omn`es formula in $S$ wave. It is found that a good numerical fit can be achieved with only one subtraction parameter, and the eletroproduction experimental data of multipole amplitudes $E_{0+}, S_{0+}$ in the energy region below $Delta(1232)$ are well described when the photon virtuality $Q^2 leq 0.1 mathrm{GeV}^2$.

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