D-state configurations in the electromagnetic form factors of the nucleon and the Delta(1232) resonance

Abstract

The -N electromagnetic transition form factors are calculated in the Poincar\'e covariant quark model in three forms of relativistic kinematics. Addition of D-state components to pure S-state model wave functions, chosen so as to reproduce the empirical elastic electromagnetic nucleon form factors with single constituent currents, brings the calculated REM ratio for the (1232) Nγ transition closer to the empirical values in instant and point form kinematics. The calculated RSM ratio is insensitive to the D-state component. In front form kinematics the substantial violation of the angular condition for the spin 3/2 resonance transition amplitude in the impulse approximation prevents a unique determination of REM and RSM, both of which are very sensitive to D-state components. In no form of kinematics do D-state deformations of the rest frame baryon wave functions alone suffice for a description of the empirical values of these ratios.

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