CP Violation in B(s)φ K Decays: Standard Model Benchmarks and Isospin-Breaking New Physics
Abstract
The penguin loop-suppressed Bφ K decays are highly sensitive to contributions of hypothetical heavy new particles. Particularly interesting probes for testing the Standard Model and revealing such phenomena are provided by CP violation in the B0dφ K S decay. Standard-Model estimates for the corresponding CP-violating observables are theoretically limited by doubly Cabibbo-suppressed penguin contributions. We study these effects using a factorization approach, and provide predictions for CP asymmetries, to be contrasted with future measurements. To gain additional insight into these hadronic effects, we propose the Bs0φ K S decay as a new channel. We predict the observables for this decay for which currently no measurements exist. By comparing B0dφ K S and B+ φ K+, we further derive state-of-the-art constraints on isospin observables within the Standard Model. The same framework enables probing of possible New-Physics contributions, including general effects and those with non-trivial isospin structure. Interesting prospects arise for the high-precision era of flavour physics ahead.
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