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Anomalous muon magnetic moment, supersymmetry, naturalness, LHC search limits and the landscape

Howard Baer, V. Barger, Hasan Serce

2021Physics Letters B63 citationsDOIOpen Access PDF

Abstract

The recent measurement of the muon anomalous magnetic moment aμ≡(g−2)μ/2 by the Fermilab Muon g−2 experiment sharpens an earlier discrepancy between theory and the BNL E821 experiment. We examine the predicted Δaμ≡aμ(exp)−aμ(th) in the context of supersymmetry with low electroweak naturalness (restricting to models which give a plausible explanation for the magnitude of the weak scale). A global analysis including LHC Higgs mass and sparticle search limits points to interpretation within the normal scalar mass hierarchy (NSMH) SUSY model wherein first/second generation matter scalars are much lighter than third generation scalars. We present a benchmark model for a viable NSMH point which is natural, obeys LHC Higgs and sparticle mass constraints and explains the muon magnetic anomaly. Aside from NSMH models, then we find the (g−2)μ anomaly cannot be explained within the context of natural SUSY, where a variety of data point to decoupled first/second generation scalars. The situation is worse within the string landscape where first/second generation matter scalars are pulled to values in the 10−50 TeV range. An alternative interpretation for SUSY models with decoupled scalar masses is that perhaps the recent lattice evaluation of the hadronic vacuum polarization could be confirmed which leads to a Standard Model theory-experiment agreement in which case there is no anomaly.

Topics & Concepts

PhysicsParticle physicsSupersymmetrySuperpartnerAnomalous magnetic dipole momentHiggs bosonMuonPhysics beyond the Standard ModelElectroweak interactionLarge Hadron ColliderElectroweak scaleParticle physics theoretical and experimental studiesComputational Physics and Python ApplicationsDark Matter and Cosmic Phenomena