Implication of 2β from global fit and B J/ KS
Abstract
The measurement of 2 β is discussed within and beyond the standard model. In the presence of new physics, the angle β extracted from the global fit(denoted by βSMfit) and the one extracted from B J/ KS (denoted by βJ/) are in general all different from the 'true' angle β which is the weak phase of CKM matrix element V*td. Possible new physics effects on the ratio Rβ=2βJ// 2βSMfit is studied and parameterized in a most general form. It is shown that the ratio Rβ may provide a useful tool in probing new physics. The experimental value of Rβ is obtained through an update of the global fit of the unitarity triangle with the latest data and found to be less than unity at 1σ level. The new physics effects on Rβ from the models with minimum flavor violation (MFV) and the standard model with two-Higgs-doublet (S2HDM) are studied in detail. It is found that the MFV models seem to give a relative large value Rβ≥ 1. With the current data, this may indicate that this kind of new physics may be disfavored and alternative new physics with additional phases appears more relevant. As an illustration for models with additional phase beyond CKM phase, the S2HDM effects on Rβ are studied and found to be easily coincide with the data due to the flavor changing neutral Higgs interaction.
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