K π in the MSSM in Light of the εK/εK Anomaly

Abstract

The Standard-Model (SM) prediction for the CP-violating quantity εK/εK deviates from its measured value by 2.8 σ. It has been shown that this tension can be resolved within the Minimal Supersymmetric Standard Model (MSSM) through gluino-squark box diagrams, even if squarks and gluinos are much heavier than 1 TeV. The rare decays KL π0 and K+ π+ are similarly sensitive to very high mass scales and the first one also measures CP violation. In this article, we analyze the correlations between εK/εK and B(KL π0) and B(K+ π+) within the MSSM aiming at an explanation of εK/εK via gluino-squark box diagrams. The dominant MSSM contribution to the K π branching fractions stems from box diagrams with squarks, sleptons, charginos, and neutralinos, and the pattern of the correlations is different from the widely studied Z-penguin scenarios. This is interesting in light of future precision measurements by KOTO and NA62 at J-PARC and CERN, respectively. We find B(KL π0)/BSM (KL π0) 2\,(1.2) and B(K+ π+)/BSM(K+ π+) 1.4\,(1.1), if all squark masses are above 1.5 TeV, gaugino masses obey GUT relations, and if one allows for a fine-tuning at the 1\%\,(10\%) level for the gluino mass. Larger values are possible for a tuned CP violating phase. Furthermore, the sign of the MSSM contribution to εK imposes a strict correlation between B(KL π0) and the hierarchy between the masses mU, mD of the right-handed up-squark and down-squark: sgn[B(KL π0)-BSM (KL π0)] = sgn(mU-mD) .