Uncovering the mystery of X(3872) with the coupled-channel dynamics

Abstract

The X(3872), as the first and the most crucial member in the exotic charmoniumlike XYZ family, has been studied for a long time. However, its dynamical origin, whether stemming from a DD* hadronic molecule or the first excited P-wave charmonium c1(2P), remains controversial. In this Letter, we demonstrate that the X(3872) definitely does not result from the mass shift of the higher bare c1(2P) resonance pole in the coupled-channel dynamics involving a short-distance cc core and the long-distance DD* channels. Instead, it originates from either the DD* molecular pole or the shadow pole associated with the anti-resonance of the P-wave charmonium, depending on the weak or strong coupling mode, respectively. To differentiate these origins and fully exploit the nature of X(3872), we conduct a comprehensive analysis in a couple-channel dynamics framework, including the isospin violation, the three-body DDπ effect, the dynamical width of D*, and non-open-charm decays of the bare c1(2P). Our findings highlight the pivotal role of the coupled-channel dynamics in explaining the disparity between the pole widths of X(3872) and Tcc+, while also predicting a new resonance with JPC=1++ around 4.0 GeV. By matching the newly observed c1(4010) by the LHCb Collaboration to our predicted resonance, we conclude that the X(3872) most likely originates from the DD* pole with a confidence level exceeding 99.7\%.

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