c u transitions of Bc mesons: 331 model facing Standard Model null tests

Abstract

The Glashow-Iliopoulos-Maiani mechanism is extremely efficient to suppress the flavour-changing neutral current decays of charmed hadrons induced by the c u transitions, making such processes particularly sensitive to phenomena beyond the Standard Model. In particular, c u decays with a neutrino pair in the final state are theoretically appealing due to the small long-distance contributions. Moreover, in the framework of the Standard Model Effective Field Theory (SMEFT), the SU(2)L invariance allows to relate the Wilson coefficients in the effective Hamiltonian governing the c u decays to the coefficients in the c u + - Hamiltonian. We analyze the Bc B(*)+ decays, for which branching fractions of at most O(10-16) are predicted in the Standard Model including short- and long-distance contributions, so small that they can be considered as null tests. Using SMEFT and the relation to the c u + - processes we study the largest enhancement achievable in generic new physics scenarios. Then we focus on a particular extension of the Standard Model, the 331 model. SMEFT relations and the connection with c u + - imply that B(Bc B(*)+ ) could even reach O(10-6), an extremely large enhancement. A less pronounced effect is found in the 331 model, with O(10-11) predicted branching fractions. Within the 331 model correlations exist among the Bc B(*)+ and K π , B (Xs, K, K*) channels.