The CDF W-mass, muon g-2, and dark matter in a U(1)Lμ-Lτ model with vector-like leptons

Abstract

We study the CDF W-mass, muon g-2, and dark matter observables in a local U(1)Lμ-Lτ model in which the new particles include three vector-like leptons (E1,~ E2,~ N), a new gauge boson Z', a scalar S (breaking U(1)Lμ-Lτ), a scalar dark matter XI and its partner XR. We find that the CDF W-mass disfavors mE1= mE2=mN or sL=sR=0 where sL(R) is mixing parameter of left (right)-handed fields of vector-like leptons. A large mass splitting between E1 and E2 is favored when the differences between sL and sR becomes small. The muon g-2 anomaly can be simultaneously explained for appropriate difference between sL (mE1) and sR (mE2), and some regions are excluded by the diphoton signal data of the 125 GeV Higgs. Combined with the CDF W-mass, muon g-2 anomaly and other relevant constraints, the correct dark matter relic density is mainly obtained in two different scenarios: (i) XIXI Z'Z',~ SS for mZ'(mS)<mXI and (ii) the co-annihilation processes for min(mE1,mE2,mN,mXR) closed to mXI. Finally, we use the direct searches for 2+ETmiss event at the LHC to constrain the model, and show the allowed mass ranges of the vector-like leptons and dark matter.