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An explanation for the muon and electron g − 2 anomalies and dark matter

Kai-Feng Chen, Cheng-Wei Chiang, Kei Yagyu

2020Journal of High Energy Physics38 citationsDOIOpen Access PDF

Abstract

A bstract We propose simple models with a flavor-dependent global U(1) ℓ and a discrete ℤ 2 symmetries to explain the anomalies in the measured anomalous magnetic dipole moments of muon and electron, ( g − 2) μ,e , while simultaneously accommodating a dark matter candidate. These new symmetries are introduced not only to avoid the dangerous lepton flavor-violating decays of charged leptons, but also to ensure the stability of the dark matter. Our models can realize the opposite-sign contributions to the muon and electron g − 2 via one-loop diagrams involving new vector-like leptons. Under the vacuum stability and perturbative unitarity bounds as well as the constraints from the dark matter direct searches and related LHC data, we find suitable parameter space to simultaneously explain ( g − 2) μ,e and the relic density. In this parameter space, the coupling of the Higgs boson with muons can be enhanced by up to ∼ 38% from its Standard Model value, which can be tested in future collider experiments.

Topics & Concepts

PhysicsMuonParticle physicsDark matterParameter spaceHiggs bosonStandard Model (mathematical formulation)LeptonUnitarityLarge Hadron ColliderPhysics beyond the Standard ModelAnomalous magnetic dipole momentCoupling (piping)ColliderNuclear physicsElectronAxionAnomaly (physics)Simple (philosophy)Homogeneous spaceElectroweak interactionBosonSupersymmetryMuon colliderStability (learning theory)Space (punctuation)Lepton numberDipoleGrand Unified TheoryParticle physics theoretical and experimental studiesComputational Physics and Python ApplicationsDark Matter and Cosmic Phenomena