Topological amplitudes in D decays to two pseudoscalars: a global analysis with linear SU(3)F breaking

Abstract

We study decays of D0, D+, and Ds+ mesons into two pseudoscalar mesons by expressing the decay amplitudes in terms of topological amplitudes. Including consistently SU(3)F breaking to linear order, we show how the topological-amplitude decomposition can be mapped onto the standard expansion using reduced amplitudes characterized by SU(3) representations. The tree and annihilation amplitudes can be calculated in factorization up to corrections which are quadratic in the color-counting parameter 1/Nc. We find new sum rules connecting D+→ KSK+, Ds+→ KSπ+ and D+→ K+π0, which test the quality of the 1/Nc expansion. Subsequently, we determine the topological amplitudes in a global fit to the data, taking the statistical correlations among the various measurements into account. We carry out likelihood ratio tests in order to quantify the role of specific topological contributions. While the SU(3)F limit is excluded with a significance of more than five standard deviations, a good fit (with 2 <1) can be obtained with less than 28\% of SU(3)F breaking in the decay amplitudes. The magnitude of the penguin amplitude Pbreak, which probes the Glashow Iliopoulos Maiani (GIM) mechanism, is consistent with zero; the hypothesis Pbreak=0 is rejected with a significance of just 0.7σ. We obtain the Standard-Model correlation between B(D0→ KL π0) and B(D0→ KSπ0), which probes doubly Cabibbo-suppressed amplitudes, and find that B(D0→ KL π0)<B(D0→ KSπ0) holds with a significance of more than 4σ. We finally predict B(Ds+→ KL K+)= 0.012+0.006-0.002 at 3σ CL.