Transition form factors: γ + p (1232), (1600)

Abstract

Electroproduction form factors describing the γ p +(1232), +(1600) transitions are computed using a fully-dynamical diquark-quark approximation to the Poincar\'e-covariant three-body bound-state problem in relativistic quantum field theory. In this approach, the (1600) is an analogue of the Roper resonance in the nucleon sector, appearing as the simplest radial excitation of the (1232). Precise measurements of the γ p +(1232) transition already exist on 0 ≤ Q2 8\,GeV2 and the calculated results compare favourably with the data outside the meson-cloud domain. The predictions for the γ p +(1600) magnetic dipole and electric quadrupole transition form factors are consistent with the empirical values at the real photon point, and extend to Q2 ≈ 6 mp2, enabling a meaningful direct comparison with experiment once analysis of existing data is completed. In both cases, the electric quadrupole form factor is particularly sensitive to deformation of the -baryons. Interestingly, whilst the γ p +(1232) transition form factors are larger in magnitude than those for γ p +(1600) in some neighbourhood of the real photon point, this ordering is reversed on Q2 2 mp2, suggesting that the γ p +(1600) transition is more localised in configuration space.