Production of N*(1535) and N*(1650) in c→K0η p (π N) decay

Abstract

In order to study the properties of the N*(1535) and N*(1650) we calculate the mass distributions of M B in the c → K0 M B decay, with MB=π N(I=1/2),η p and K(I=1/2). We do this by calculating the tree-level and loop contributions, mixing pseudoscalar-baryon and vector-baryon channels using the local hidden gauge formalism. The loop contributions for each channel are calculated using the chiral unitary approach. We observe that for the η N mass distribution only the N*(1535) is seen, with the N*(1650) contributing to the width of the curve, but for the π N mass distribution both resonances are clearly visible. In the case of MB=K, we found that the strength of the K mass distribution is smaller than that of the mass distributions of the π N and η p in the c+→K0π N and c+→K0η p processes, in spite of this channel having a large coupling to the N*(1650). This is because the K pair production is suppressed in the primary production from the c decay.