Family Non-universal Z Effects on Bd,s K*0 K*0 Decays in Perturbative QCD Approach

Abstract

The nonleptonic decays Bd,s K*0 K*0 are reanalyzed in perturbative QCD approach, which is based on the k T factorization. In the standard model, the calculated branching fraction and longitudinal polarization fraction of Bd K*0 K*0 are in agreement with experimental measurements, while the predictions of Bs K*0 K*0 cannot agree with data simultaneously. The parameter that combines of longitudinal polarization fractions and branching fractions evaluated to be LK*K*0 PQCD= 12.7+5.6 -3.2, which is also larger than that abstracted from experimental measurements. We then study all observables by introducing a family non-universal Z boson in b s q q transitions. In order to reduce the number of new parameters, we simplify the model as possible. It is found that with the fixed value ωBs=0.55, these exists parameter space where all measurements, including the branching fraction, longitudinal polarization fraction and LK*K*0-parameter, could be accommodated simultaneously. All our results and the small parameter space could be further tested in the running LHC experiments, Belle-II and future high-energy colliders.