D-wave dimeson resonance interpretation to the Zc/Zcs/Zb states

Abstract

In this work, we construct the S-wave, P-wave, and D-wave D(*)D*(s)/B(*)B*(s) interactions by considering the lowest order contributions from the leading order (LO), next-to-leading order (NLO), and next-to-next-to-next-to-leading order (N3LO) contact terms, respectively. After solving the corresponding Lippmann-Schwinger equation (LSE), we obtain the typical pole trajectory for the S-wave/P-wave/D-wave state. We adjust the P-wave low energy constant (LEC) and accordingly obtain a P-wave DD*/D*D resonance state that may correspond to the observed G(3900), and its P-wave D*D* and B(*)B* partners are also predicted. Then we proceed to adjust the D-wave LECs to looking for the D-wave D(*)D(*)(s)/B(*)B(*)(s) resonances. The satisfactory consistencies between our results and the experimental resonance parameters of Zc(3900)/Zc(4020), Zb(10610)/Zb(10650), and Zcs(4000)/Zcs(4220) indicate that the D-wave resonance interpretation may provide a unified picture to understand these isovector charmoniumlike states. Especially, the broad width features of Zcs(4000) and Zcs(4220) can be naturally reproduced by interpreting them as D-wave DDs* and D*Ds* resonances, respectively.