Toward a precision determination of the X(6200) parameters from data

Abstract

In a recent paper [], the LHCb data on the di-J/ψ production in proton-proton collisions were analyzed in a coupled-channel framework based on double-vector-charmonium channels. This investigation identified a robust pole near the J/ψJ/ψ threshold, tagged X(6200), suggesting it as a new state. The present work extends that investigation by incorporating recent di-J/ψ production data from the CMS and ATLAS Collaborations and performing a combined analysis of all three datasets. This study confirms the existence of the X(6200), and its pole position is now determined with a higher precision than in the previous study, where only a single dataset was employed. The pole corresponding to the X(6900) is also extracted, though its actual position and residue depend on a particular coupled-channel model employed and deviate from values reported in the experimental investigations. Moreover, we demonstrate that the currently available data do not allow one to determine whether there is an additional pole in the studied mass range. The dielectron width of the X(6200) is estimated under different conjectures on its quantum numbers, and the number of such states that can be annually produced at the future Super τ-Charm Facility is estimated. The line shape in the complimentary J/ψψ(2S) channel is discussed, and a good agreement with the ATLAS data is found. Published by the American Physical Society 2025