Final State Interactions in Kππ Decays: I=1/2 Rule vs. /

Abstract

Dispersive effects from strong ππ rescattering in the final state (FSI) of weak Kππ decays are revisited with the goal to have a global view on their relative importance for the I=1/2 rule and the ratio / in the Standard Model (SM). We point out that this goal cannot be reached within a pure effective (meson) field approach like chiral perturbation theory in which the dominant current-current operators governing the I=1/2 rule and the dominant density-density (four-quark) operators governing / cannot be disentangled from each other. But in the context of a dual QCD approach, which includes both long distance dynamics and the UV completion, that is QCD at short distance scales, such a distinction is possible. We find then that beyond the strict large N limit, N being the number of colours, FSI are likely to be important for the I=1/2 rule but much less relevant for /. The latter finding diminishes significantly hopes that improved calculations of / would bring its SM prediction to agree with the experimental data, opening thereby an arena for important new physics contributions to this ratio.