331 models facing new b -> s mu+ mu- data

Abstract

We investigate how the 331 models face new data on Bs,d->mu+mu- and Bd->K*mu+mu- taking into account present constraints from Delta F=2 observables, low energy precision measurements, LEP-II and the LHC data. In these models new flavour violating interactions of ordinary quarks and leptons are dominated by a new heavy Zprime gauge boson with the strength of the relevant couplings governed by four new parameters in the quark sector and the parameter beta. We study the implications of these models for beta=+-n/sqrt3 with n=1,2,3. The case beta=-sqrt3 leading to Landau singularities for MZ'approx 4Tev can be ruled out when the present constraints on Zprime couplings, in particular from LEP-II, are taken into account. For n=1,2 interesting results are found for MZprime< 4Tev with largest NP effects for beta<0 in Bd->K*mu+mu- and the ones in Bs,d->mu+mu- for beta>0. As Re(C9NP) can reach the values -0.8 and -0.4 for n=2 and n=1, respectively the Bd-> K*mu+mu- anomalies can be softened with the size depending on Delta Ms/(Delta Ms)SM and the CP-asymmetry Spsiphi. A correlation between Re(C9NP) and BR(Bs->mu+mu-), identified for beta<0, implies for negative Re(C9NP) uniquely suppression of BR(Bs->mu+mu-) relative to its SM value which is favoured by the data. In turn also Spsiphi< SpsiphiSM is favoured having dominantly opposite sign to SpsiphiSM. We find that the absence of Bd-> K*mu+mu- anomalies in the future data and confirmation of the suppression of BR(Bs->mu+mu-) relative to its SM value would favour beta=1/sqrt3 and MZ'approx 3Tev. Assuming lepton universality, we find an upper bound |C9NP|<1.1(1.4) from LEP-II data for all Z' models with only left-handed flavour violating couplings to quarks when NP contributions to Delta Ms at the level of 10%(15%) are allowed.