Production of doubly heavy quarkonium associated with two heavy quarks via top quark decays

Abstract

In this paper, we analyze the 1 → 4 decay channel for the production of doubly heavy quarkonium, (bc) or (cc), via top-quark decays, t (bc) + c + c + s and t (cc) + b + c + s, within the framework of nonrelativistic QCD (NRQCD). The dominant contributions are considered in color-singlet S-wave states, i.e., (bc)[1S0], (bc)[3S1], (cc)[1S0], and (cc)[3S1]. Our calculations show that the decay widths for Bc, Bc*, ηc and J/ production are 0.2251, 0.3099, 0.0537 and 0.0555 MeV, respectively, resulting in O(104--106) level of Bc(*) events and O(103--105) level of charmonium produced at LHC per year. In particular, we find that the dominant contribution to ηc and J/ production via top-quark decays arises from this decay channel proposed in this work. Moreover, this multi-body top-quark decay process can serve as a sensitive probe for validating the narrow-width approximation (NWA). Finally, we provide a detailed analysis of theoretical uncertainties and differential distributions to facilitate the corresponding experimental searches. The production of a hadron associated with three quarks contains rich physical information, providing new insights for the LHC to study Bc mesons and charmonia.