In Pursuit of New Physics with Bd0 J/ K0 and Bs0 J/φ Decays at the High-Precision Frontier

Abstract

The decays Bd0 J/ K0Sand Bs0 J/φ play a key role for the determination of the B0q- B0q (q=d,s) mixing phases φd and φs, respectively. The theoretical precision of the extraction of these quantities is limited by doubly Cabibbo-suppressed penguin topologies, which can be included through control channels by means of the SU(3) flavour symmetry of strong interactions. Using the currently available data and a new simultaneous analysis, we discuss the state-of-the-art picture of these effects and include them in the extracted φq values. We have a critical look at the Standard Model predictions of these phases and explore the room left for new physics. Considering future scenarios for the high-precision era of flavour physics, we illustrate that we may obtain signals for physics beyond the Standard Model with a significance well above five standard deviations. We also determine effective colour-suppression factors of Bd0 J/ K0, Bd0 J/ K0S and Bd0 J/π0 decays, which serve as benchmarks for QCD calculations of the underlying decay dynamics, and present a new method using information from semileptonic Bd0π-+ and Bs0 K-+ decays.