Decoding Zc(4430) and Zc(4200): The role of P-wave charmed mesons

Abstract

In this work, we perform a systematic investigation of the hidden-charm tetraquark states with IG(JPC)=1+(1+-) within the hadronic molecular picture, placing particular emphasis on systems composed of an S-wave (D, D*) meson and a P-wave (D0*(2300), D1(2430), D1(2420), D2*(2460)) meson. Adopting the One-Boson Exchange potential, we solve the Schr\"odinger equation in momentum space via the Complex Scaling Method. A crucial feature of our approach is the rigorous treatment of the unstable nature of the P-wave constituents by incorporating three-body decay effects arising from self-energy corrections and the static limit approximation. Our results demonstrate that these three-body dynamics play a crucial role in determining the pole positions, specifically in reproducing the large decay widths observed experimentally. We identify several broad resonances in the D*D1(2420) and D*D2*(2460) systems as candidates for the Zc(4430), while the significantly broader resonances in the DD0*(2300) and DD1(2430) sectors are suggested as candidates for the Zc(4200). Focusing on the D*D2*(2460) assignment as a specific case study, we further analyze the line shape of the Zc(4430) candidate using a Flatt\'e-like parametrization with energy-dependent self-energy terms, providing predictions for its open-charm decay modes to guide future experimental searches.