Flavour anomalies meet flavour symmetry

Abstract

We construct an extension of the Standard Model with a scalar leptoquark φ (3,1,-13) and the discrete flavour symmetry Gf=D17× Z17 to explain anomalies observed in charged-current semi-leptonic B meson decays and in the muon anomalous magnetic moment, together with the charged fermion masses and quark mixing. The symmetry Z17 diag, contained in Gf, remains preserved by the leptoquark couplings, at leading order, and efficiently suppresses couplings of the leptoquark to the first generation of quarks and/or electrons, thus avoiding many stringent experimental bounds. The strongest constraints on the parameter space are imposed by the radiative charged lepton flavour violating decays τμγ and μ eγ. A detailed analytical and numerical study demonstrates the feasibility to simultaneously explain the data on the lepton flavour universality ratios R(D) and R(D) and the muon anomalous magnetic moment, while passing the experimental bounds from all other considered flavour observables.

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