Rare top quark decays in the minimal R-symmetric supersymmetric standard model

Abstract

The one-loop contributions to the flavor-changing neutral current decays of the top quark into a light quark and a gauge boson or Higgs boson, namely t→ qV,qh, with q being u or c, and V being γ, g, or Z, are analyzed in this study within the framework of the minimal R-symmetric supersymmetric standard model. The charginos in this model have been separated into two sets, i.e., -chargino and -chargino. The numerical results reveal that gluino or -chargino predominantly dictate the predictions for BR(t→ qV,qh), while the impact of neutralino or -chargino contributions is insignificant. By incorporating the constraints imposed by the squark mixing parameters from B→ Xsγ and B0d,s→ μ+μ-, the theoretical predictions for BR(t→ qg) can be significantly augmented to approximately O(10-5-10-6). On the other hand, the values of BR(t→ qγ,qZ,qh) are predicted to be at least four orders of magnitude below the current experimental limits.