Precise measurement of the CKM angle γ with a novel approach

Abstract

A measurement of the CKM angle γ is performed by applying a novel, unbinned, model-independent approach to datasets of electron-positron collisions collected by the BESIII experiment and proton-proton collisions by the LHCb experiment, corresponding to integrated luminosities of 8 fb-1 and 9 fb-1, respectively. The C\!P-violating phase γ is determined from B→ D(→ K S0 h+h-) h decays in LHCb data, where h() is either a pion or kaon, while the corresponding strong-phase parameters are measured using doubly tagged D→ K S/L0 h+ h- decays in the quantum-correlated DD system present in BESIII data. A joint fit to both datasets, which allows for a simultaneous determination of the associated C\!P-violating observables and strong-phase parameters, yields γ = (71.3 5.0). The result is the most precise to date and consistent with previous measurements and world averages.