Abstract
We study CP violations in the B_s-> K+K- and Bs->K0K0 decays in order to find the contribution of the supersymmetry, which comes from the gluino-squark mediated flavor changing current. We obtain the allowed region of the squark flavor mixing parameters by putting the experimental data, the mass difference Delta M_Bs, the CP violating phase phi_s in Bs to J/psi phi decay and the b to s gamma branching ratio. In addition to these data, we take into account the constraint from the asymmetry of B0->K+pi because the Bs->K+K- decay is related with the B0->K+pi- decay by replacing the spectator s with d. Under these constraints, we predict the magnitudes of the CP violation in the Bs->K+K- and Bs->K0K0 decays. The predicted region of the CP violation C_{K+K-} is strongly cut from the direct CP violation of barB0 to K-pi+, therefore, the deviation from the SM prediction of C_{K+K-} is not found. On the other hand, the CP violation S_{K+K-} is possibly deviated from the SM prediction considerably, in the region of 0.1- 0.5. Since the standard model predictions of C_{K0bar K0} and S_{K0bar K0} are very small, the squark contribution can be detectable in C_{K0bar K0} and S_{K0bar K0}. These magnitudes are expected in the region C_{K0bar K0}=-0.06-0.06 and S_{K0bar K0}=-0.5-0.3. More precise data of these CP violations provide us a crucial test for the gluino-squark mediated flavor changing current.
Highlights
There have been a lot of studies to search for new physics in the low energy flavor physics such as Bs decays
In order to search for the gluino-squark mediated flavor changing effect, we have studied the CP violations in the Bs → K+K− and Bs → K0K0 processes, in which the b → s transition penguin amplitudes dominate the decays
We have searched for the allowed region of the flavor mixing δ2d3L, by putting the experimental data the mass difference ∆MBs, the CP violating phase φs in Bs → J/ψφ decay and the b → sγ branching ratio
Summary
There have been a lot of studies to search for new physics in the low energy flavor physics such as Bs decays. The LHCb collaboration presented the data of the time dependent CP asymmetry in the non-leptonic Bs → J/ψφ decay [4, 11, 12], which is consistent with the SM prediction This observed value gives us a strong constraint of the new physics contribution to the b → s transition. In addition to this result, the first measurement of time-dependent CP violation in Bs → K+K− decay has been reported at LHCb [14]. Relevant formulations are presented in appendices A, B, and C
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