A unified description of the hidden-charm tetraquark states Zcs(3985), Zc(3900) and X(4020)

Abstract

The newly observed hidden-charm tetraquark state Zcs(3985), together with Zc(3900) and X(4020), are studied in the combined theoretical framework of the effective range expansion, compositeness relation and the decay width saturation. The elastic effective-range-expansion approach leads to sensible results for the scattering lengths, effective ranges and the compositeness coefficients, i.e., the probabilities to find the two-charm-meson molecule components in the tetraquark states. The coupled-channel formalism by including the J/π and DD*/DD* to fulfill the constraints of the compositeness relation and the decay width, confirms the elastic effective-range-expansion results for the Zc(3900), by using the experimental inputs for the ratios of the decay widths between DD*/DD* and J/π. With the results from the elastic effective-range-expansion study as input for the compositeness, we generalize the discussions to the Zcs(3985) by including the J/ K- and Ds-D*0/Ds*-D0, and predict the partial decay widths of the J/ K-. Similar calculations are also carried out for the X(4020) by including the hcπ and D*D*, and the partial decay widths of the hcπ is predicted. Our results can provide useful guidelines for future experimental measurements.