Aspects of Zcs(3985) and Zcs(4000)

Abstract

In the present work we investigate the ηc K, J/ K, ηc K* and J/ K* hidden-charm decay modes for the ccsu four-quark system in the molecular and compact tetraquark scenarios using the quark-exchange model. Our theoretical results indicate that if the newly observed states Zcs(3985) and Zcs(4000) are two different states, Zcs(4000) may be interpreted as the mixture 12(D0Ds*-+D*0Ds-) of which the J/ K partial decay width is about 2.89 MeV, while Zcs(3985) may be explained as the mixture 12(-D0Ds*-+D*0Ds-) of which the J/ K partial decay width is small to zero. Moreover, if the state Zcs(4000) can be explained as the mixed state 12(D0Ds*-+D*0Ds-) indeed, the partial decay width ratio between J/ K and ηcK* is close to unit, which indicates the decay channel ηcK* may be a ideal channel as well to decode the inner structure of Zcs(4000). In addition, the partial decay width for the tensor molecular state |D*0Ds*-2+ decaying into J/ K* can reach up to a few MeV, which shows this tensor molecular state has a good potential to be observed in this decay channel.