Final State Rescattering and Color-suppressed B0-> D(*)0 h0 Decays

Abstract

The color-suppressed B0-> D(*)0π0, D(*)0η, D0ω decay modes have just been observed for the first time. The rates are all larger than expected, hinting at the presence of final state interactions. Considering B0-> D(*)0π0 mode alone, an elastic D(*)π -> D(*)π rescattering phase difference δ δ1/2 - δ3/2 30 would suffice, but the B0-> D(*)0η, D0ω modes compel one to extend the elastic formalism to SU(3) symmetry. We find that a universal a2/a1=0.25 and two strong phase differences 20 θ < δ < δ 50 can describe both DP and D*P modes rather well; the large phase of order 50 is needed to account for the strength of both the D(*)0π0 and D(*)0η modes. For DV modes, the nonet symmetry reduces the number of physical phases to just one, giving better predictive power. Two solutions are found. We predict the rates of the B0-> D+s K-, D*+s K-, D00, D+s K*- and D0φ modes, as well as B0-> D0 K0, D*0 K0, D0 K*0 modes. The formalism may have implications for rates and CP asymmetries of charmless modes.

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