Z models with less-minimal flavour violation

Abstract

We study the phenomenology of simplified Z models with a global U(2)3 flavour symmetry in the quark sector, broken solely by the Standard Model Yukawa couplings. This flavour symmetry, known as less-minimal flavour violation, protects F=2 processes from dangerously large new physics (NP) effects, and at the same time provides a free complex phase in b s transitions, allowing for an explanation of the hints for additional direct CP violation in kaon decays (ε/ε) and in hadronic B-decays (B Kπ puzzle). Furthermore, once the couplings of the Z boson to the leptons are included, it is possible to address the intriguing hints for NP (above the 5\,σ level) in b s +- transitions. Taking into account all flavour observables in a global fit, we find that ε/ε, the B Kπ puzzle and b s +- data can be explained simultaneously. Sizeable CP violation in b s +- observables, in particular A8, is predicted, which can be tested in the near future, and an explanation of the B Kπ and ε/ε puzzles leads to effects in di-jet tails at the LHC, that are not far below the current limits. Once b s +- is included, cancellations in di-muon tails, possibly by a second Z, are required by LHC data.