On measuring alpha in B(t)-> rho pi^

Abstract

Defining a most economical parametrization of time-dependent B-> rho pi decays, including a measurable phase alphaeff which equals the weak phase alpha in the limit of vanishing penguin amplitudes, we propose two ways for determining alpha in this processes. We explain the limitation of one method, assuming only that two relevant tree amplitudes factorize and that their relative strong phase, deltat, is negligible. The other method, based on broken flavor SU(3), permits a determination of alpha in B0-> rho pi in an overconstrained system using also rate measurements of B0,+-> K* pi and B0,+->rho K. Current data are shown to restrict two ratios of penguin and tree amplitudes, r, to a narrow range around 0.2, and to imply an upper bound |alphaeff - alpha| < 15 degrees. Assuming that deltat is much smaller than 90 degrees, we find alpha =(93 16) degrees and (102 20) degrees using BABAR and BELLE results for B(t)-> rho pimp. Avoiding this assumption for completeness, we demonstrate the reduction of discrete ambiguities in alpha with increased statistics, and show that SU(3) breaking effects are effectively second order in r.

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