Neutral pion photoproduction on the nucleon in a chiral quark model

Abstract

A chiral quark-model approach is adopted to study the γ p→ π0p and γ n→ π0 n reactions. Good descriptions of the total and differential cross sections and single-polarization observables are obtained from the pion production threshold up to the second resonance region. It is found that (i) the n=0 shell resonance (1232)P33, the n=1 shell resonances N(1535)S11 and N(1520)D13, and the n=2 shell resonance N(1720)P13 play crucial roles in these two processes. They are responsible for the first, second and third bump structures in the cross sections, respectively. (ii) Furthermore, obvious evidences of N(1650)S11 and (1620)S31 are also found in the reactions. They notably affect the cross sections and the polarization observables from the second resonance region to the third resonance region. (iii) The u-channel background plays a crucial role in the reactions. It has strong interferences with the s-channel resonances. (iv) The t-channel background seems to be needed in the reactions. Including the t-channel vector-meson exchange contribution, the descriptions in the energy region Eγ= 600 900 MeV are improved significantly. The helicity amplitudes of the main resonances, (1232)P33, N(1535)S11, N(1520)D13, N(1720)P13, N(1650)S11 and (1620)S31, are extracted and compared with the results from other groups.