331 Models Facing the Tensions in F=2 Processes with the Impact on /, Bsμ+μ- and B K*μ+μ-

Abstract

Motivated by the recently improved lattice QCD results on the hadronic matrix elements entering Ms,d in Bs,d0- Bs,d0 mixings and the resulting increased tensions between Ms,d and K in the Standard Model and CMFV models, we demonstrate that these tensions can be removed in 331 models based on the gauge group SU(3)C× SU(3)L× U(1)X both for MZ in the LHC reach and well beyond it. But the implied new physics (NP) patterns in F=1 observables depend sensitively on the value of |Vcb|. Concentrating the analysis on three 331 models that have been selected by us previously on the basis of their performance in electroweak precision tests and / we illustrate this for |Vcb|=0.042 and |Vcb|=0.040. We find that these new lattice data still allow for positive shifts in / up to 6× 10-4 for MZ=3~TeV for both values of |Vcb| but for MZ=10~TeV only for |Vcb|=0.040 such shifts can be obtained. NP effects in Bsμ+μ- and in the Wilson coefficient C9 are significantly larger in all three models for the case of |Vcb|=0.040. In particular in two models the rate for Bsμ+μ- can be reduced by NP by 20\% for MZ=3~TeV resulting in values in the ballpark of central values from CMS and LHCb. In the third model a shift in C9 up to C9NP=-0.5 is possible. We also consider the simplest 331 model, analyzed recently in the literature, in which X=Y, the usual hypercharge. We find that in this model NP effects in flavour observables are much smaller than in the three models with X=Y, in particular NP contributions to the ratio /$ are very strongly suppressed.