Theoretical study of N(1535) and *(1/2-) in the Cabibbo-favored process c+ p K0η

Abstract

Motivated by the recent experimental measurements, we have investigated the Cabibbo-favored process c+ p K0η, where the N(1535) resonance is dynamically generated from the S-wave pseudoscalar meson-octet baryon interactions within the chiral unitary approach. The contributions from the intermediate N(1650) and the predicted low-lying baryon *(1/2-) are also considered. In addition, a Breit-Wigner amplitude for the N(1535) resonance is checked. By comparing with the measured η p, K0 η, and p K0 invariant mass squared distributions, our results support the interpretation of N(1535) as a dynamically generated state. Furthermore, we demonstrate that, with the contribution from *(1/2-) taken into account, the calculated invariant mass spectrum agrees with the Belle measurements. Future precise measurements of the c+ p K0η process can further elucidate the existence of the low-lying baryon *(1/2-).