New Strategies to Extract $β$ and $γ$ from $B_d\to π^+ π^-$ and $B_s\to K^+ K^-$

Details New Strategies to Extract $β$ and $γ$ from $B_d\to π^+ π^-$ and $B_s\to K^+ K^-$ New Strategies to Extract $β$ and $γ$ from $B_d\to π^+ π^-$ and $B_s\to K^+ K^-$

1999-03-23

arxiv.org/abs/hep-ph/9903456v1

Phys.Lett.B459:306-320,1999

Physics

High Energy Physics

High Energy Physics - Phenomenology

18 pages, LaTeX, 5 figures

Scientific paper

10.1016/S0370-2693(99)00640-1

The decays $B_d\to \pi^+ \pi^-$ and $B_s\to K^+ K^-$ are related to each other by interchanging all down and strange quarks, i.e. through the $U$-spin flavour symmetry of strong interactions. A completely general parametrization of the CP-violating observables of these modes is presented within the framework of the Standard Model, allowing the determination of the angles $\beta$ and $\gamma$ of the unitarity triangle. This strategy is affected neither by penguin contributions nor by any final-state-interaction effects, and its theoretical accuracy is only limited by $U$-spin-breaking corrections. If the $B^0_d - \bar{B^0_d}$ mixing phase $2\beta$ is determined separately, for example with the help of $B_d\to J/\psi K_S$, $\gamma$ can be extracted with a reduced $U$-spin flavour symmetry input. A variant of this strategy to determine $\gamma$, which uses $B_d\to\pi^\mp K^\pm$ instead of $B_s\to K^+ K^-$ and relies -- in addition to the SU(3) flavour symmetry -- on a certain dynamical assumption, is also briefly discussed.

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