Flavor changing neutral current decays t c X (X=γ,\,g,\, Z,\, H) and t c (=μ,\,τ) via scalar leptoquarks

Abstract

The flavor changing neutral current decays t c X (X=γ,\,g,\, Z,\, H) and t c (=μ,\,τ) are studied in a renormalizable scalar leptoquark (LQ) model with no proton decay, where a scalar SU(2) doublet with hypercharge Y=7/6 is added to the standard model, yielding a non-chiral LQ 5/3. Analytical results for the one-loop (tree-level) contributions of a scalar LQ to the fi fj X (fi fj fm fl) decays, with fa=qa, a, are presented. We consider the scenario where 5/3 couples to the fermions of the second and third families, with its right- and left-handed couplings obeying λR ui/λL ui=O(ε), where ε parametrizes the relative size between these couplings. The allowed parameter space is then found via the current constraints on the muon (g-2), the τ μγ decay, the LHC Higgs boson data, and the direct LQ searches at the LHC. For m_5/3=1 TeV and ε=10-3, we find that the t c X branching ratios are of similar size and can be as large as 10-8 in a tiny area of the parameter space, whereas Br(t c ττ) [ Br(t c μμ)] can be up to 10-6 (10-7).