Combined analysis of the π-p→ K0, η n reactions in a chiral quark model

Abstract

A combined analysis of the reactions π-p→ K0 and η n is carried out with a chiral quark model. The data in the center-of-mass (c.m.) energy range from threshold up to W 1.8 GeV are reasonably described. For π-p→ K0, it is found that N(1535)S11 and N(1650)S11 paly crucial roles near threshold. The N(1650)S11 resonance contributes to the reaction through configuration mixing with N(1535)S11. The constructive interference between N(1535)S11 and N(1650)S11 is responsible for the peak structure around threshold in the total cross section. The n-pole, u- and t-channel backgrounds provide significant contributions to the reaction as well. While, for the π-p→ η n process, the "first peak" in the total cross section is dominant by N(1535)S11, which has a sizeable destructive interference with N(1650)S11. Around Pπ 1.0 GeV/c (W 1.7 GeV), there seems to be a small bump structure in the total cross section, which might be explained by the interference between the u-channel and N(1650)S11. The N(1520)D13 resonance notably affects the angle distributions of the cross sections, although less effects are seen in the total cross section. The role of P-wave state N(1720)P13 should be further confirmed by future experiments. If N(1720)P13 has a narrow width of 120 MeV as found in our previous work by a study of the π0 photoproduction processes, obvious evidence should be seen in the π-p→ K0 and η n processes as well.