More Benefits of Semileptonic Rare B Decays at Low Recoil: CP Violation

Abstract

We present a systematic analysis of the angular distribution of Bbar -> Kbar (-> Kbar pi) l+ l- decays with l = e, mu in the low recoil region (i.e. at high dilepton invariant masses of the order of the mass of the b-quark) to account model-independently for CP violation beyond the Standard Model, working to next-to-leading order QCD. From the employed heavy quark effective theory framework we identify the key CP observables with reduced hadronic uncertainties. Since some of the CP asymmetries are CP-odd they can be measured without B-flavour tagging. This is particularly beneficial for Bbars,Bs -> phi(-> K+ K-) l+ l- decays, which are not self-tagging, and we work out the corresponding time-integrated CP asymmetries. Presently available experimental constraints allow the proposed CP asymmetries to be sizeable, up to values of the order ~ 0.2, while the corresponding Standard Model values receive a strong parametric suppression at the level of O(10-4). Furthermore, we work out the allowed ranges of the short-distance (Wilson) coefficients C9,C10 in the presence of CP violation beyond the Standard Model but no further Dirac structures. We find the Bbars -> mu+ mu- branching ratio to be below 9*10-9 (at 95% CL). Possibilities to check the performance of the theoretical low recoil framework are pointed out.