Studying of Bs0-Bs0 mixing and Bs K(*)-K(*)+ decays within supersymmetry

Abstract

Recent results from CDF and D collaborations favor a large CP asymmetry in Bs0-Bs0 mixing, while the standard model prediction is very small. Such a large phase may imply sizable new physics effects in Bs0-Bs0 mixing. We compute the gluino-mediated supersymmetry contributions to Bs0-Bs0 mixing, Bs->K(*)-K(*)+ and B->Xsγ decays in the frame of the mass insertion approximation. Combining the constraints of s, s, φJ/φs, B(Bs->K-K+) and B(B->Xs γ), we find that the effects of the constrained LL and RR insertions in Bs->K(*)-K(*)+ decays are small because of the absence of gluino mass enhancement. For m2g/m2q=9, the constrained LR insertion can provide sizable contributions to all observables of Bs->K(*)-K(*)+ decays except AdirCP(Bs->K-K+), and many observables are sensitive to the modulus and the phase of the LR insertion parameter. Near future experiments at Fermilab Tevatron and CERN LHC-b can test these predictions and shrink/reveal the mass insertion parameter spaces.