The P33(1232) resonance contribution into the amplitudes M1+3/2,E1+3/2,S1+3/2 from an analysis of the p(e,e'p)π0 data at Q2 = 2.8, 3.2, and 4 (GeV/c)2 within dispersion relation approach
Abstract
Within the fixed-t dispersion relation approach we have analysed the TJNAF and DESY data on the exclusive p(e,e'p)π0 reaction in order to find the P33(1232) resonance contribution into the multipole amplitudes M1+3/2,E1+3/2,S1+3/2. As an input for the resonance and nonresonance contributions into these amplitudes the earlier obtained solutions of the integral equations which follow from dispersion relations are used. The obtained values of the ratio E2/M1 for the γ* N P33(1232) transition are: 0.039 0.029, 0.121 0.032, 0.04 0.031 for Q2= 2.8, 3.2, and 4 (GeV/c)2, respectively. The comparison with the data at low Q2 shows that there is no evidence for the presence of the visible pQCD contribution into the transition γ N P33(1232) at Q2=3-4 GeV2. The ratio S1+3/2/M1+3/2 for the resonance parts of multipoles is: -0.049 0.029, -0.099 0.041, -0.085 0.021 for Q2= 2.8, 3.2, and 4 (GeV/c)2, respectively. Our results for the transverse form factor GT(Q2) of the γ* N P33(1232) transition are lower than the values obtained from the inclusive data. With increasing Q2, Q4GT(Q2) decreases, so there is no evidence for the presence of the pQCD contribution here too.
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