CP Violation in B -> pi+ pi- and the Unitarity Triangle

Abstract

We analyze the extraction of weak phases from CP violation in Bπ+π- decays. We propose to determine the unitarity triangle (,η) by combining the information on mixing induced CP violation in Bπ+π-, S, with the precision observable 2β obtained from the CP asymmetry in B KS. It is then possible to write down exact analytical expressions for and η as simple functions of the observables S and 2β, and of the penguin parameters r and φ. As an application clean lower bounds on η and 1- can be derived as functions of S and 2β, essentially without hadronic uncertainty. Computing r and φ within QCD factorization yields precise determinations of and η since the dependence on r and φ is rather weak. It is emphasized that the sensitivity to the phase φ enters only at second order and is extremely small for moderate values of this phase, predicted in the heavy-quark limit. Transparent analytical formulas are further given and discussed for the parameter C of direct CP violation in Bπ+π-. We also discuss alternative ways to analyze S and C that can be useful if new physics affects Bd-- Bd mixing. Predictions and uncertainties for r and φ in QCD factorization are examined in detail. It is pointed out that a simultaneous expansion in 1/mb and 1/N leads to interesting simplifications. At first order infrared divergences are absent, while the most important effects are retained. Independent experimental tests of the factorization framework are briefly discussed.

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