Model-independent determination of the strong-phase difference between D0 and D0-bar-> K0S,L h+ h- (h=pi,K) and its impact on the measurement of the CKM angle gamma/phi3

Abstract

We report the first determination of the relative strong-phase difference between D0 -> K0S,L K+ K- and D0-bar -> K0S,L K+ K-. In addition, we present updated measurements of the relative strong-phase difference between D0 -> K0S,L pi+ pi- and D0-bar -> K0S,L pi+ pi-. Both measurements exploit the quantum coherence between a pair of D0 and D0-bar mesons produced from psi(3770) decays. The strong-phase differences measured are important for determining the Cabibbo-Kobayashi-Maskawa angle gamma/phi3 in B- -> K- D0-tilde decays, where D0-tilde is a D0 or D0-bar meson decaying to K0S h+ h- (h=pi,K), in a manner independent of the model assumed to describe the D0 -> K0S h+ h- decay. Using our results, the uncertainty in gamma/phi3 due to the error on the strong-phase difference is expected to be between 1.7 and 3.9 degrees for an analysis using B- K- D0-tilde D0-tilde -> K0S pi+ pi- decays, and between 3.2 and 3.9 degrees for an analysis based on B- -> K- D0-tilde, D0-tilde -> K0S K+ K- decays. A measurement is also presented of the CP-odd fraction, F-, of the decay D0 -> K0S K+ K- in the region of the phi -> K+ K- resonance. We find that in a region within 0.01 GeV2/c4 of the nominal phi mass squared F- > 0.91 at the 90% confidence level.