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The Zcs states and the mixture of hadronic molecule and diquark-anti-diquark components within effective field theory

Aug 9, 2022, 5:35 PM
Oral report 强子物理与味物理 Parallel Session II (2):Hadron and Flavor Physics


伟 何 (L)


In this work, we construct the Lagrangian describing meson-diquark interaction, such that the diquark-anti-diquark component as well as the molecular component is introduced when studying the $Z_{cs}$ states. In this way, the problem is solved that if only considering the $\bar{D}^{(*)}D_s^{(*)}$ components, the potentials are suppressed by OZI rule. Through solving the Bethe-Salpeter equation, we find that the $Z_{cs}(4000)^+$ can be explained as the mixture of $\bar{D}^{*0}D_s^+$ and $\bar{A}_{cs}S_{cu}$ components. Besides, for the $\bar{D}^{*0}D_s^{*+}/\bar{A}_{cs}A_{cu}$ system, the pole of $4208\pm 13i$ MeV on the second Riemann sheet is predicted, whose mass is close to that of $Z_{cs}(4220)^+$ while the width is much smaller than $Z_{cs}(4220)^+$. Due to the large error of the $Z_{cs}(4220)^+$'s width, further measurements are expected. In addition, several other poles of different spins are predicted.

Primary authors

Mr Ze-Hua Cao (Lanzhou Center for Theoretical Physics, Lanzhou University, Lanzhou, Gansu 730000, China) 伟 何 (L)


Dr Zhi-feng Sun (Lanzhou University)

Presentation materials