Enhancement of Direct CP asymmetry in Z' models

Abstract

We consider CP-violating Z' models to account for the anomalies in b s decays. Using the updated constraints from lepton flavor universality (LFU) violating ratios, b s μ μ CP-conserving and CP-violating observables, Bs-Bs mixing and neutrino trident we obtain the favored parameter space of two classes of Z' models generating the `1D' new physics scenarios with C9 NP <0 and C9 NP = -C10 NP. We show that the predictions of direct CP asymmetry ACP in B+ K+ μ \, μ decays close to the c c resonance region can be used to detect the presence of new CP violating phases in the Z' couplings.The favored 1\,σ parameter space of Z' models generating the scenario C9 NP <0 allows for an enhancement in the integrated ACP in q2 =[8,9]\,GeV2 bin up to 10\% and in the q2 =[6,7]\,GeV2 bin up to 5\%. We find that for a negative value of the phase of J/ resonance, although such an enhancement is possible in Z' models generating the scenario C9 NP = -C10 NP, the favored parameter space prefers only positive values of ACP. Hence, a future measurement of direct CP asymmetry in these bins can potentially constrain the size of new CP violating phases, and help in distinguishing between the two classes of Z' models.