The impact of S-wave thresholds Ds1Ds+c.c. and Ds0D*s+c.c. on vector charmonium spectrum

Abstract

By investigating the very closely lied Ds1Ds+c.c. and Ds0D*s+c.c. thresholds at about 4.43 GeV we propose that the (4415) and (4160) can be mixing states between the dynamic generated states of the strong S-wave Ds1Ds+c.c. and Ds0D*s+c.c. interactions and the quark model states (4S) and (2D). We investigate the J/ KK final states and invariant mass spectrum of J/ K to demonstrate that nontrivial lineshapes can arise from such a mechanism. This process, which goes through triangle loop transitions, is located in the vicinity of the so-called "triangle singularity (TS)" kinematics. As a result, it provides a special mechanism for the production of exotic states Zcs, which is the strange partner of Zc(3900), but with flavor contents of ccqs (or ccsq) with q denoting u/d quarks. The lineshapes of the e+e- J/ KK cross sections and J/ K \ (J/ K) spectrum are sensitive to the dynamically generated state, and we demonstrate that a pole structure can be easily distinguished from open threshold CUSP effects if an exotic state is created. A precise measurement of the cross section lineshapes can test such a mixing mechanism and provide navel information for the exotic partners of the Zc(3900) in the charmonium spectrum.