Departure from the Standard Model of Meson Decays and Cartan's Supersymmetry

Abstract

The experimental decay branching ratios of mesons like Bs and Bd (=e or μ) do not agree completely with the standard model (SM). Cartan's supersymmetry predicts relation of the coupling of vector particles xμ, xμ', (μ=1,2,3,4) to Dirac spinors of large components , φ and small components C, Cφ. In the decay of Bd= b d, the Cabibbo-Kobayashi-Maskawa(CKM) model suggests that the contribution of t quark dominates, while in the decay of Bs= b s, contribution of c quark in the intermediate state is expected to be large, since s and c quark belong to the same CKM sector. The relative strength of the t quark and c quark contribution in Cartan's supersymmetric model has more freedom than that of the SM. Together with the problem of enhancement of Bd J/ K0 in high t region, we can understand the problem of branching ratios of B decay into e e and μμ, if the Nature follows Cartan's supersymmetry.