Real and Complex Singlet-Scalar Benchmarks with a Vector-Like Down Quark for B Xsγ and Bs- Bs Mixing

Abstract

We study a simple extension of the Standard Model with a vector-like down-type quark D and a neutral singlet scalar S=SR,. The scalar is considered in two forms, a real field SR=SR and a complex field ≠. The interaction -λi S DL dRi+ h.c. generates the radiative transitions b sγ and b sg at one loop. Since S has no electric charge or color, the gauge boson is emitted from the internal D line, giving C7γ NP/C8G NP=QD=-1/3 at the matching scale for B=1 dipole transitions. For MD=m S=1~ TeV and |λsλb|=1, the low scale contribution is |C7γ NP,eff(μb)| 1.1×10-3, This is about 0.4\% of the Standard Model value |C7γ SM,eff(μb)| 0.30. We also discuss \(Bs- Bs\) mixing. In the real-scalar case, the direct and crossed box diagrams cancel in the exact minimal limit. In the complex-scalar case, the direct box contribution remains and gives a bound on the flavor |λsλb| at the level of a few tenths for TeV-scale masses. Thus, in these minimal benchmarks, B Xsγ is radiatively safe, while Bs- Bs mixing gives the stronger constraint in the complex-scalar benchmark.