Abstract
In this work, we study the impact of b rightarrow s ell ell , B_s - bar{B_s} mixing and neutrino trident measurements on observables in decays induced by c rightarrow u transition in the context of a non-universal Z' model which generates C^{mathrm{NP}}_{9} <0 and C^{mathrm{NP}}_9 = - ,C^{mathrm{NP}}_{10} new physics scenarios at the tree level. We inspect the effects on D^0 rightarrow pi ^0 nu {bar{nu }}, D^+ rightarrow pi ^+ nu {bar{nu }} and B_c rightarrow B^+ nu {bar{nu }} decays which are induced by the quark level transition c rightarrow u nu {bar{nu }}. The fact that the branching ratios of these decays are negligible in the standard model (SM) and the long distance effects are relatively smaller in comparison to their charged dileptons counterparts, they are considered to provide genuine null-tests of SM. Therefore the observation of these modes at the level of current as well as planned experimental sensitivities would imply unambiguous signature of new physics. Using the constraints on Z' couplings coming from a combined fit to b rightarrow s ell ell , varDelta M_s and neutrino trident data, we find that any meaningful enhancement over the SM value is ruled out in the considered framework. The same is true for D - {bar{D}} mixing observable varDelta M_D along with D^0 rightarrow mu ^+ mu ^- and D^+ rightarrow pi ^+ mu ^+ mu ^- decay modes which are induced through c rightarrow u mu ^+ mu ^- transition.
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