Isospin-breaking in '/: Impact of η0 at the Dawn of the 2020s

Abstract

For direct CP-violation in Kππ decays, the usual isospin-breaking effects at the percent level are amplified by the dynamics behind the I=1/2 rule and conventionally encoded in IB parameters. The updated prediction IB(8)=(15.9 8.2)× 10-2 of the Chiral Perturbation Theory for the strong isospin-breaking due to π3-η8 mixing confirms such a tendency but is quite sensitive to the theoretical input value of the low-energy constant corresponding to the flavour-singlet η0 exchange contribution in this truncated octet scheme. We rather exploit the phenomenological η8-η0 mixing as a probe for the non-negligible flavour-singlet component of the physical η pole to find IB(9)=(357)× 10-2 in a complete nonet scheme. A large central value in the nonet scheme is thus substituted for a large uncertainty in the octet one. Including the experimental π+-π0 mass difference as the dominant electromagnetic isospin-breaking, we obtain for the effective parameter entering the ratio ε'/ε an improved result eff(9)=(297)× 10-2 to be compared with eff(8)=(179)× 10-2 used in recent analyses of ε'/ε. Accordingly, we get a reduction from (ε'/ε) SM(8)=(17.4 6.1)× 10-4 to (ε'/ε) SM(9)=(13.9 5.2)× 10-4 and thereby an effective suppression of (ε'/ε) SM by isospin-breaking corrections as large as 40\% relative to the recent RBC-UKQCD value.