Weak phases and CP-symmetry tests in sequential decays of entangled double-strange baryons

Abstract

Using a sample of 1.31×109 J/ events collected with the BESIII detector at the electron-positron collider BEPCII, we analyse the full J/ -+, - π-, pπ-, +π+, pπ+ decay chain. A new method, exploiting the fact that the -+ pair is entangled and sequentially decaying, and where the complete decay chains are reconstructed, is applied for the first time. This enables precision measurements of the decay parameters for the -π- decay (α, φ) as well as the +π+ decay (α, φ). From the decay parameters, two independent CP tests were performed, quantified by the observables A CP and φ. Our results, A CP = (6.013.45.6)×10-3 and φ= (-4.813.72.9)×10-3~ rad, are consistent with CP symmetry. Furthermore, our method enables a separation of strong and weak π decay amplitudes. This results in the first direct measurement of the weak phase difference for any baryon decay. The result is found to be (P - S) = (1.23.40.8)×10-2 rad and is one of the most precise tests of CP symmetry for strange baryons. The strong phase difference is measured to be (δP - δS) = (-4.03.31.7)×10-2 rad. In addition, we provide an independent measurement of the recently debated decay parameter, α = 0.757 0.011 0.008 . The asymmetry is measured to be A CP = (-3.711.79.0)×10-3.