Mixing-Induced CP Violation in B -> P1 P2 gamma in Search of Clean New Physics Signals
Abstract
We show that in a decay of the form Bd or Bs-> P1 P2 gamma (where P1 and P2 are pseudoscalar mesons), through a flavor changing dipole transition, time dependent oscillations can reveal the presence of physics beyond the Standard Model. If P1 and P2 are CP eigenstates (e.g. as in Bd -> KS pi0 gamma), the oscillation is independent of the resonance structure. Thus data from resonances as well as from nonresonant decays can be included. This may significantly enhance the sensitivity to new physics of the method. If P1 is a charged particle, and P2 its anti-particle (e.g. as in Bd -> pi+ pi- gamma), one has the additional advantage that both the magnitude and the weak phase of any new physics contribution can be determined from a study of the angular distribution. These signals offer excellent ways to detect new physics because they are suppressed in the Standard Model. We also show that the potential contamination of these signals originating from the Standard Model annihilation diagram gives rise to photons with, to a very good approximation, the same helicity as the dominant penguin graph and thus causes no serious difficulty.
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