Theoretical study on c+ K+K0 decay and *(1690) resonance

Abstract

We present a theoretical study of *(1690) resonance in the c+ K+ K0 decay, where the weak interaction part proceeds through the Cabibbo-favored process c s + ud. Next, the intermediate two mesons and one baryon state can be constructed with a pair of qq with the vacuum quantum numbers. Finally, the *(1690) is mainly produced from the final state interactions of K in coupled channels, and it is shown in the K invariant mass distribution. Besides, the scalar meson a0(980) and nucleon excited state N*(1535) are also taken into account in the decaying channels K+K0 and K+, respectively. Within model parameters, the K+ K0, K0 and K+ invariant mass distributions are calculated, and it is found that our theoretical results can reproduce well the experimental measurements, especially for the clear peak around 1690 MeV in the K spectrum. The proposed weak decay process c+ K+ K0 and the interaction mechanism can provide valuable information on the nature of the *(1690) resonance.