Contributions to ZZV (V=γ,Z,Z') couplings from CP violating flavor changing couplings

Abstract

The one-loop contributions to the trilinear neutral gauge boson couplings ZZV (V=γ,Z,Z'), parametrized in terms of one CP-conserving f5V and one CP-violating f4V form factors, are calculated in models with CP-violating flavor changing neutral current couplings mediated by the Z gauge boson and an extra neutral gauge boson Z'. Analytical results are presented in terms of both Passarino-Veltman scalar functions and closed form functions. Constraints on the vector and axial couplings of the Z gauge boson |gVZtu|< 0.0096 and |gVZtc|<0.011 are obtained from the current experimental data on the t→ Z q decays. It is found that in the case of the ZZγ vertex the only non-vanishing form factor is f5γ, which can be of the order of 10-3, whereas for the ZZZ vertex both form factors f5Z and f4Z are non-vanishing and can be of the order of 10-6 and 10-5, respectively. Our estimates for f5γ and f5Z are smaller than those predicted by the standard model, where f4Z is absent up to the one loop level. We also estimate the ZZZ'* form factors arising from both diagonal and non-diagonal Z' couplings within a few extension models. It is found that in the diagonal case f5Z' is the only non-vanishing form factor and its real and imaginary parts can be of the order of 10-1-10-2 and 10-2-10-3, respectively, with the dominant contributions arising from the light quarks and leptons. In the non-diagonal case f5Z can be of the order of 10-4, whereas f4Z' can reach values as large as 10-7-10-8, with the largest contributions arising from the Z'tq couplings.