F. Cardarelli, E. Pace, G. Salme', S. Simula
Published 1996-09-21, updated 1997-02-11Version 2
A parameter-free evaluation of the $N - P_{11}(1440)$ electromagnetic transition form factors is performed within a light-front constituent quark model, using for the first time the eigenfunctions of a mass operator which generates a large amount of configuration mixing in baryon wave functions. A one-body electromagnetic current, which includes the phenomenological constituent quark form factors already determined from an analysis of pion and nucleon experimental data, is adopted. For $Q^2$ up to few $(GeV/c)^2$, at variance with the enhancement found in the elastic channel, the effect of configuration mixing results in a significant suppression of the calculated helicity amplitudes with respect to both relativistic and non-relativistic calculations, based on a simple gaussian-like ansatz for the baryon wave functions.
Comments: revised version to appear in Phys. Lett. B
Journal: Phys.Lett. B397 (1997) 13-19
Electromagnetic transition form factors of the Roper resonance in effective field theory
Completing the picture of the Roper resonance
Electroexcitation of the Roper resonance in the relativistic quark models
