Light-quark components analysis and the nature of the Y(4260)

Abstract

We study the processes e+ e- Y(4260) J/ ππ(KK). The strong final-state interactions, especially the coupled-channel (ππ and KK) final-state interaction in the S-wave are taken into account in a model-independent way using dispersion theory. It is found that the light-quark SU(3) octet state plays a significant role in these transitions, implying that the Y(4260) contains a large light-quark component. Our findings suggest that the Y(4260) is neither a hybrid nor a conventional charmonium state. Furthermore, through an analysis of the ratio of the light-quark SU(3) octet and singlet components, we show that the Y(4260) does not behave like a pure D D1 hadronic molecule as well.