Theoretical study of the process D+s π+ K0S K0S and the isovector partner of f0(1710)

Abstract

We present a theoretical study of a0(1710), the isovector partner of f0(1710), in the process D+s π+ K0SK0S. The weak interaction part proceeds through the charm quark decay process: c(s) (s + d + u)(s), while the hadronization part takes place in two mechanisms, differing in how the quarks from the weak decay combines into π K* with a quark-antiquark pair qq with the vacuum quantum numbers. In addition to the contribution from the tree diagram of the K*+ π+ K0S, we have also considered the K*K* final-state interactions within the chiral unitary approach to generate the intermediate state a0(1710), then it decays into the final states K0SK0S. We find that the recent experimental measurements on the K0SK0S and π+K0S invariant mass distributions can be well reproduced, and the proposed mechanism can provide valuable information on the nature of scalar f0(1710) and its isovector partner a0(1710).