Fully charmed tetraquark production at the LHC experiments

Abstract

We develop the formalism for production of a fully heavy tetraquark and apply it to the calculation of pp T4c+X cross-sections. We demonstrate that the production cross-section of a fully heavy tetraquark, even if it is a diquark-antidiquark cluster, can be obtained in the meson-like basis, for which the spin-color projection technique is well established. Prompted by the recent LHCb, ATLAS and CMS data, we perform a pQCD calculation of O(αs5) short-distance factors in the dominant channel of gluon fusion, and match these to the four-body T4c wave functions in order to obtain the unpolarized T4c(0++,1+-,2++) cross-sections. The novelty in comparison with the recently published article~Feng:2023agq lies in the fact that we predict the absolute values as well as the dσ/dpT spectra in the kinematic ranges accessible at the ongoing LHC experiments. From the comparison with the signal yield at LHCb we derive the constraints on the ·Br(J/\,J/) (reduced wave function times branching) product for the T4c candidates for X(6900) and observe that X(6900) is compatible with a 2++(2S) state.