b -> d Penguins: CP Violation, General Lower Bounds on the Branching Ratios and Standard Model Tests
Abstract
With the wealth of new data from the B-factories, b -> d penguin decays become available for study, in addition to their b -> s counterparts that have proven an indespensable tool for the exploration of new-physics effects in flavour physics. A prominent example of the b -> d penguin transitions is B0d K0 K0. We show that this decay can be charaterized in the Standard Model by a surface in the observable space of the direct and mixing-induced CP asymmetries and the branching ratio. The form of this surface, which is theoretically clean, implies a lower bound for the branching ratio that has recently been confirmed experimentally. If future measurements of the CP asymmetries yield a point away from the SM surface, this would be an interesting signal of new physics. We point out that the hadronic parameters in B0d K0 K0 that parameterize the position on the SM surface are related to hadronic parameters in the B -> pi K system. The fact that the branching ratio of B0d K0 K0 is very close to its lower bound yields interesting implications for B -> pi K even without knowledge of the CP asymmetries of B0d K0 K0. The mechanism that produces the lower bound for B0d K0 K0 is actually much more general; we derive lower bounds for various other b -> d penguin-induced processes, including B -> rho gamma and B K() K(). Some of these theoretical lower bounds are very close to the current experimental upper bounds.
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