Parametrizations of the γ N (1232) quadrupole form factors and Siegert's theorem

Abstract

The large Nc limit provides relations that can be used to calculate the γ N (1232) quadrupole form factors at low and intermediate Q2 under the assumption of the pion cloud dominance. There are two limitations in those parametrizations. First, the parametrization of the Coulomb quadrupole form factor underestimate the low Q2 data. Second, when extrapolated for the timelike region, the form factors violate Siegert's theorem by terms of the order 1/Nc2. We propose here corrections to the parametrization of the electric quadrupole form factor, which violate Siegert's theorem only by terms of the order 1/Nc4. Combining the improved large Nc pion cloud parametrizations with the valence quark contributions based on a covariant quark model for the quadrupole transition form factors, we obtain an extrapolation to the timelike region consistent with Siegert's theorem, and accomplish also a very good description of the data.