Is Zcs(3982) a molecular partner of Zc(3900) and Zc(4020) states?

Abstract

We perform an effective-field-theory-based coupled-channel analysis of the recent BES III data on the e+e- annihilation into the final state K+(Ds-D*0+Ds*-D0) in a wide energy range and extract the poles responsible for the formation of the Zcs(3982). We identify two scenarios which provide a similar description of the experimental mass distributions but result in utterly different predictions for the spin partners of the Zcs(3982): although both scenarios are consistent with the Zcs as a SU(3) partner of the Zc(3900), the Zc(4020) appears naturally as a spin partner of these states only in one of them (fit 1) while in the other (fit 2) its nature has to be different. Also, the Zcs(3982) has a JP=1+ spin partner near the Ds* D* threshold in fit 1, while no such state exists in fit 2. We predict the Ds*D* invariant mass distribution in the JP=1+ channel for the reaction e+e- K+Ds*-D*0 and argue that this line shape can be used to distinguish between the two scenarios once data in this channel are available.

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