Measurement of mixing-induced CP violation in the decay B0 π0 π0

Abstract

Measurements of charge-parity (CP) violation in quark transitions provide stringent tests of the current theory and sensitive probes of particles or interactions beyond it. We report the first measurement of mixing-induced CP violation in B0π0π0 decays. The measurement uses 190 million Υ(4S) B0B0 events collected with the Belle II experiment at the SuperKEKB asymmetric-energy electron-positron collider. A new approach that exploits the quantum entanglement of the B0B0 pair enables a decay-time-dependent analysis without reconstructing the B0 π0π0 decay position. We measure the mixing-induced CP-violating coefficient to be Sπ0π0 = 0.61+0.75-0.79\,(stat) 0.11\,(syst), attaining a precision that would require a data set twenty times as large with a conventional analysis. We also measure the direct CP-violating coefficient to be Cπ0π0 = 0.05 0.28\,(stat) 0.07\,(syst). These results substantially improve the constraints from B ππ decays on the CP-violating phase ϕ2 of the quark-mixing matrix using far less data than had previously been assumed necessary.