Prospects for discovering strongly decaying doubly heavy Tbc tetraquark states at LHCb

Abstract

We investigate the discovery potential of the Tbc state with JP = 0+ in proton-proton (pp) collisions at LHCb at a center-of-mass energy of s = 13~TeV. The study focuses on the decay channel Tbc B- D+. A phenomenological approach is employed to construct the background model based on the associated production of B and D mesons, incorporating previously published LHCb results. Background processes are simulated using MadGraph5\aMC@NLO and Pythia8.3. We explore the parameter space of the Tbc mass, width, production cross section, and the effective double-parton scattering cross section (σeff) relevant for the B D meson background. The integrated luminosity required for a 5σ discovery at LHCb is evaluated under various assumptions. In particular, we consider three representative Tbc production cross section scenarios: an optimistic estimate of 103~nb, an intermediate value of 18~nb obtained by scaling from the Tcc+ production cross section, and a conservative lower bound of 0.3~nb. We find that a 5σ observation is achievable for a production cross section of 103~nb, which is expected to be within reach during Run~4. In contrast, the more realistic cross section estimate of 18~nb requires the full Run~5 dataset (300~fb-1) under the most favorable parameter choices. For the conservative scenario, no significant signal would be observable even with 300~fb-1. In addition, we estimate the minimum observable σ(Tbc) × BR(Tbc B- D+) for a 5σ discovery under different luminosity scenarios, providing guidance for future experimental searches at LHCb.