Productions of Tcc and its SU(3)-flavor symmetry and heavy quark spin symmetry partners in Bc decays

Abstract

Inspired by the observation of the doubly charmed tetraquark state Tcc at pp collisions in the inclusive processes, we systematically investigate the production of doubly charmed tetraquark states in exclusive Bc decays. In this work, we assume the Tcc as a DD* bound state, and then predict the masses of its heavy quark spin symmetry partner D*D* (denoted by Tcc*) as well as their SU(3)-flavor symmetry partners, i.g., DsD*/Ds*D (denoted by Tccs+ and Tccs++) and D*Ds* (denoted by Tccs*+ and Tccs*++), using the contact range effective field theory. Within the molecular picture, we compute their partial decays and production rates in Bc meson decays. We identify the decays Bc D0D0π+D0 and Bc Ds+ D0 π+D- as promising channels to observe the tetraquark states Tcc(*) and Tccs(*)++, respectively. Finally, by combining these results with Bc production cross sections, we estimate the expected event yields for these states in the upcoming LHC Run 3 and 4. Our results indicate that the Tccs+ and Tccs*++ states are likely to be observed in Bc decays, while it is quite difficult for the Tcc and Tcc* states.

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