Chiral effective-field theory in the Delta(1232) region: Pion electroproduction on the nucleon (original) (raw)

We develop an extension of chiral perturbation theory to the Delta\DeltaDelta(1232)-resonance energy region and apply it to investigate the pion electroproduction off the nucleon ($e^- N \to e^- N\pi$). We present a complete calculation of this process, in the Delta\DeltaDelta-resonance region, up to next-to-leading order in the {\it delta\deltadelta-expansion}. At this order, the only free parameters are the three low-energy constants corresponding to the magnetic (M1), electric (E2), and Coulomb (C2) gammaNtoDelta\gamma N \to \Delta gammaNtoDelta transition strength. After fitting these parameters to a few well-known data, our calculation provides a prediction for observables and multipole amplitudes of pion electroproduction. These results compare favorably with the phenomenological multipole solutions and recent experimental results from MIT-Bates and MAMI. Our prediction for the pion-mass dependence of the gammaNDelta\gamma N\DeltagammaNDelta form factors offers an explanation for the discrepancy between the recent lattice-QCD results and the experimental value for the "C2/M1 ratio" at low Q2Q^2Q2.