Abstract
In the model proposed by B\'elanger, Delaunay and Westhoff (BDW), a new sector consisted of vectorlike fermions and two complex scalars is charged under an extra Abelian symmetry $U(1)_X$. In this paper, we generalize the BDW model by introducing the kinetic mixing between the $U(1)_X$ and the standard model $U(1)_Y$ gauge fields. The new physics contributions to the muon anomalous magnetic moment and the Wilson coefficients $C_{9,10}^{(')}$ are obtained analytically. We have explored the free parameter space of the model, taking into account various constraints on the muon $g-2$ using recent data from the E989 experiment at Fermilab, the lepton universality violation in terms of $R_K$ and $R_{K^*}$, and the branching ratios of the semileptonic decays, $B^+ \rightarrow K^+ \mu^+ \mu^-$ and $B^0 \rightarrow K^{*0} \mu^+ \mu^-$, the LEP and LHC searches for sleptons and $Z'$ boson, as well as the perturbative requirement. The viable parameter regions of the model are identified. In the presence of the gauge kinetic mixing term, those regions are enlarged and significantly deformed in comparison to the case with vanishing kinetic mixing. In the near future, the E989 experiment with the projected sensitivity will be able to test significant parts of the currently allowed parameter regions.
Highlights
We have explored the free parameter space of the model, taking into account various constraints on the muon g − 2 using recent data from the E989 experiment at Fermilab, the lepton universality violation in terms of RK and RKÃ and the branching ratios of the semileptonic decays, Bþ → Kþμþμ− and B0 → KÃ0μþμ−, the LEP and LHC searches for sleptons and Z0 boson, as well as the perturbative requirement
The standard model (SM) predictions have been verified in many experiments showing an excellent agreement with data, new physics seems to be around the corner due to unanswered questions
We have investigated the parameter space of the model, taking into account the phenomenological constraint on the muon g − 2, the updated LHCb data on lepton universality violation (RK and RKÃ), the branching ratios of the semileptonic rare decays (Bþ → Kþμþμ− and B0 → K0μþμ−), the LEP data on slepton searches, and the LHC 13 TeV data on both slepton and Z0-boson searches, as well as requirements from the perturbative theory
Summary
The standard model (SM) predictions have been verified in many experiments showing an excellent agreement with data, new physics seems to be around the corner due to unanswered questions. The updated LHCb results on the angular analysis of the decay process B0 → KÃ0ð892Þμþμ− show a 3.3σ deviation from the SM prediction [15,16] that is slightly increased in comparison to the previous observation [17]. This is due to the higher statistics regarding the inclusion of 2016 data for 13 TeV collisions. Model-independent analyses on the experimental data using the effective field theory approach with the Hamiltonian [18]
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