Diagnostic for new physics in $B \to ÏK$ decays
arXiv:0905.1495 · doi:10.1016/j.physletb.2009.06.018
Abstract
A recent analysis of $B \to ÏK$ decays concludes that present data do not clearly indicate whether (i) the standard model (or $ÎI=0$ new physics) is sufficient, or (ii) $ÎI=1$ new physics is needed. We show that these two possibilities can be distinguished by whether a sum rule relating the CP asymmetries of the four $B \to ÏK$ decays is valid. If case (i) is favored, the sum rule holds, and one predicts $A_{CP}(Ï^0 K^0) = -0.15$, while in case (ii) fits to new physics involving large values of a color-suppressed tree amplitude entail $A_{CP}(Ï^0 K^0) = -0.03$. The current experimental average $A_{CP}(Ï^0 K^0) = -0.01 \pm 0.10$ must be measured a factor of at least three times more precisely in order to distinguish between the two cases.
10 pages, no figures. Submitted to Physics Letters B. Slight clarification added