Charmless $B \to PV, VV $ decays and new physics effects in the mSUGRA model
arXiv:hep-ph/0507122 · doi:10.1103/PhysRevD.72.094026
Abstract
By employing the QCD factorization approach, we calculate the new physics contributions to the branching radios of the two-body charmless $ B \to PV$ and $B \to VV$ decays in the framework of the minimal supergravity (mSUGRA) model. we choose three typical sets of the mSUGRA input parameters in which the Wilson coefficient $C_{7γ}(m_b)$ can be either SM-like (the case A and C) or has a flipped-sign (the case B). We found numerically that (a) the SUSY contributions are always very small for both case A and C; (b) for those tree-dominated decays, the SUSY contributions in case B are also very small; (c) for those QCD penguin-dominated decay modes, the SUSY contributions in case B can be significant, and can provide an enhancement about $30% \sim 260%$ to the branching ratios of $B \to K^*(Ï,Ï,Ï)$ and $K Ï$ decays, but a reduction about $30% \sim 80%$ to $ B\to K(Ï, Ï)$ decays; and (d) the large SUSY contributions in the case B may be masked by the large theoretical errors dominated by the uncertainty from our ignorance of calculating the annihilation contributions in the QCD factorization approach.
34 pages, 8 PS figures, this is the correct version 3