Further understanding the nature of a0(1710) in the D+s π0 K+ K0S decay

Abstract

Based on our previous work about the role of a0(1710) in the Ds+π+KS0KS0 decay [Phy. Rev. D 105, 116010 (2022)], we perform a further theoretical study of a0(1710)+ in the process D+s π0 a0(1710)+ π0 K+ K0S. In addition to a0(1710), the contributions of K* and a0(980) are also taken into account. Firstly, we consider the contributions from the tree diagrams of K*+ K+π0 and K*0 π0 K0. Secondly, we describe the final state interaction of KK in the chiral unitary approach to study the contribution of a0(980), while the a0(1710) state is dynamically generated from the K*K* interaction, and then decays into K+K0. Since the final K+ KS0 state is in pure isospin I=1, the Ds+π0K+Ks0 decay is an ideal process to study the a0(1710)+ and a0(980)+ resonances. Based on our theoretical calculations, it is found that the recent experimental measurements on the K+K0S, π0K+, and π0 KS0 invariant mass distributions can be well reproduced, which supports the molecular K*K* nature of the scalar a0(1710) resonance.