New physics in B K* τ+ τ-: A model independent analysis

Abstract

In this work we consider the implications of current b s + - (=e,\,μ) measurements on several B K* τ+ τ- observables under the assumption that the possible new physics can have both universal as well as nonuniversal couplings to leptons. For new physics solutions which provide a good fit to all b s + - data, we intend to identify observables with large deviations from the Standard Model (SM) predictions as well as to discriminate between various new physics solutions. For this we consider the B K* τ+ τ- branching fraction, the K* longitudinal fraction fL, the tau forward-backward asymmetry AFB and the optimized observables in the Pi(') basis. Further, we construct the τ - μ lepton-flavor differences (Qτμ) between these tau observables and their muonic counterparts in B K* μ+ μ- decay. Moreover, we also consider lepton-flavor ratios (Rτμ) of all of these observables. We find that the current data allows for deviations ranging from 25% up to an order of magnitude from the SM value in a number of observables. For e.g., the magnitudes of Qτ μP3 and Qτ μP'8 observables can be enhanced up to an order of magnitude, a twofold enhancement in QτμAFB is possible along with 50% enhancement in RτμK* and 25% in RτμAFB. Moreover, the branching ratio of B K* τ+ τ- can be suppressed up to 25%. A precise measurement of these observables can also discriminate between a number of new physics solutions.

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