Fully heavy asymmetric scalar tetraquarks

Abstract

The scalar tetraquarks Tb and Tc with asymmetric contents bb bc and cc cb are explored using the QCD sum rule method. These states are modeled as the diquark-antidiquarks composed of the axial-vector components. The masses and current couplings of Tb and Tc are calculated using the two-point sum rule approach. The predictions obtained for the masses of these four-quark mesons prove that they are unstable against the strong two-meson fall-apart decays to conventional mesons. In the case of the tetraquark Tb this is the decay Tb η bBc-. The processes Tc→ η cBc+ and J/ Bc + are kinematically allowed decay modes of the tetraquark Tc. The widths of corresponding processes are evaluated by employing the QCD three-point sum rule approach which are necessary to estimate strong couplings at the tetraquark-meson-meson vertices of interest. The mass m=(15698 95)~MeV and width [Tb]=(36.0 10.4)~ MeV of the tetraquark Tb as well as the parameters m=(9680 102)~MeV and [Tc]=(54.7 12.6)~ MeV in the case of Tc provide useful information to search for and interpret new exotic states.

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