Fragmentation production of fully-charmed tetraquarks at LHC

Abstract

The X(6900) resonance, very recently discovered in the double-J/ channel at LHCb experiment, has spurred intensive interest in unravelling the nature of the fully charmed tetraquark state. The aim of this paper is to present a model-independent theoretical framework to study the inclusive production of this novel species of exotic hadrons, the resonances composed of four heavy quark (commonly referred to as T4c), at large pT in hadron collision experiments. Appealing to asymptotic freedom and the fact mc QCD, we propose that the nonpertubative yet universal gluon-to-T4c fragmentation function, can be decomposed into the product of the perturbatively calculable short-distance coefficient and the long-distance NRQCD matrix elements. We compute the short-distance coefficient at lowest-order in αs and velocity expansion. Adopting the diquark ansatz to roughly estimate those not-yet-known NRQCD matrix elements, together with the standard QCD factorization theorem, we predict the differential production rates for the T4c/4b(0++) and T4c/4b(2++) at large pT in pp collision, which eagerly awaits the confrontation with the future LHC experiments.