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Singlet extensions and W boson mass in light of the CDF II result

Kodai Sakurai, Fuminobu Takahashi, Wen Yin

2022Physics Letters B54 citationsDOIOpen Access PDF

Abstract

Recently, the CDF collaboration has reported the precise measurement of the W boson mass, MW=80433.5±9.4MeV, based on 8.8 fb−1 of s=1.96 TeV pp¯ collision data from the CDF II detector at the Fermilab Tevatron. This is about 7σ away from the Standard Model prediction, MWSM=80357±6MeV. Such a large discrepancy may be partially due to exotic particles that radiatively alter the relation between the W and Z boson masses. In this Letter, we study singlet extensions of the Standard Model focusing on the shift of the W boson mass since they are accidentally flavor and CP safe without changing the Standard Model structure. In the minimal extension with a real singlet field, using the bounds from the electroweak oblique parameters, B meson decays, LEP, and LHC, we find that the W boson mass shift is at most a few MeV, and therefore it does not alleviate the tension between the CDF II result and the SM prediction. We then examine how much various bounds are relaxed when the singlet is allowed to decay invisibly, and find that the increase of the W boson mass does not exceed 5 MeV due to the bound from the Higgs signal strength. We also discuss phenomenological and cosmological implications of the singlet extensions such as the muon g−2 anomaly, axion/hidden photon dark matter, and self-interacting dark radiation as a possible alleviation of the Hubble tension.

Topics & Concepts

PhysicsParticle physicsHiggs bosonStandard Model (mathematical formulation)TevatronElectroweak interactionNuclear physicsBosonMuonLarge Hadron ColliderPhysics beyond the Standard ModelDark matterArchaeologyHistoryGauge (firearms)Particle physics theoretical and experimental studiesCosmology and Gravitation TheoriesDark Matter and Cosmic Phenomena
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