Explaining The CDF-II W-Boson Mass Anomaly in the Georgi-Machacek Extension Models

Abstract

Original Georgi-Machacek model can preserve the custodial symmetry at tree level after the electroweak symmetry breaking. Unless additional SU(2)c custodial symmetry breaking effects are significant, the new physics contributions to mW are always very small. Our numerical results show that ordinary GM model can contribute to mW a maximal amount 0.0012 GeV, which can not explain the new CDF-II anomaly on W boson mass. We propose firstly to introduce small misalignment among the triplet VEVs to increase mW, which can give large new physics contributions to mW. Such slightly misaligned triplet VEVs from custodial symmetry preserving scalar potential can still be allowed. Our numerical results indicate that the resulting mW can easily reach the 1σ range of CDF-II mW data and the splitting among the triplet VEVs v( v-v) can be as small as 0.8 GeV for v 15 GeV. We also propose to introduce an additional custodial symmetry breaking source by extending the GM model with a low scale RH neutrino sector, which can adopt the leptogenesis mechanism and allow moderately large coupling strength hij even for triplet VEVs of order GeV. With low scale RH neutrino mass scale of order 102 104 TeV, the new physics contribution to mW can reach 0.03 GeV and is much larger than that of ordinary GM model. Combining both custodial SU(2)c symmetry breaking effects, the small misalignment among the triplet VEVs and the moderately large hij couplings allowed with RH neutrino sector, the value of mW can still easily reach the 1σ range of CDF-II mW data, with a minimum splitting (among the triplet VEVs) approximately 0.7 GeV for v 15 GeV.