Rare B decays in the flip SU(5) Model

Abstract

In the testable Flipped SU(5)× U(1)X model with TeV-scale vector-like particles from F-theory model building dubbed as the flip SU(5) model, we study the vector-like quark contributions to B physics processes, including the quark mass spectra, Feynman rules, new operators and Wilson coefficients, etc. We focus on the implications of the vector-like quark mass scale on B physics. We find that there exists the sbZ interaction at tree level, and the Yukawa interactions are changed. Interestingly, different from many previous models, the effects of vector-like quarks on rare B decays such as B Xsγ and B Xs+- do not decouple in some viable parameter space, especially when the vector-like quark masses are comparable to the charged Higgs boson mass. Under the constraints from B Xsγ and \ B Xs+-, the latest measurement for Bs μ+μ- can be explained naturally, and the branching ratio of Bs +-γ can be up to (45)×10-8. The non-decouling effects are much more predictable and thus the 5 model may be tested in the near future experiments.