Emerging understanding of the I = 1/2 Rule from Lattice QCD

Abstract

There has been much speculation as to the origin of the I = 1/2 rule (Re A0/Re A2 22.5). We find that the two dominant contributions to the I=3/2, K π π correlation functions have opposite signs leading to a significant cancellation. This partial cancellation occurs in our computation of Re A2 with physical quark masses and kinematics (where we reproduce the experimental value of A2) and also for heavier pions at threshold. For Re A0, although we do not have results at physical kinematics, we do have results for pions at zero-momentum with mπ 420 MeV (Re A0/Re A2=9.1(2.1)) and mπ 330 MeV (Re A0/Re A2=12.0(1.7)). The contributions which partially cancel in Re A2 are also the largest ones in Re A0, but now they have the same sign and so enhance this amplitude. The emerging explanation of the I=1/2 rule is a combination of the perturbative running to scales of O(2 GeV), a relative suppression of Re A2 through the cancellation of the two dominant contributions and the corresponding enhancement of Re A0. QCD and EWP penguin operators make only very small contributions at such scales.