A novel measurement of the strong-phase difference between D0 K-π+ and D0 K-π+ decays using C-even and C-odd quantum-correlated DD pairs

Abstract

A novel measurement technique of strong-phase differences between the decay amplitudes of D0 and D0 mesons is introduced which exploits quantum-correlated DD pairs produced by e+e- collisions at energies above the (3770) production threshold, where DD pairs are produced in both even and odd eigenstates of the charge-conjugation symmetry. Employing this technique, the first determination of a D0-D0 relative strong phase is reported with such data samples. The strong-phase difference between D0 K-π+ and D0 K-π+ decays, δDKπ, is measured to be δDKπ=(192.8+11.0 + 1.9-12.4 -2.4), using a dataset corresponding to an integrated luminosity of 7.13 fb-1 collected at center-of-mass energies between 4.13-4.23 GeV by the BESIII experiment.