Litcius/Paper detail

The tiny (g-2) muon wobble from small-μ supersymmetry

Sebastian Baum, Marcela Carena, Nausheen R. Shah, Carlos E. M. Wagner

2022Journal of High Energy Physics41 citationsDOIOpen Access PDF

Abstract

A bstract A new measurement of the muon anomalous magnetic moment, g μ − 2, has been reported by the Fermilab Muon g-2 collaboration and shows a 4 . 2 σ departure from the most precise and reliable calculation of this quantity in the Standard Model. Assuming that this discrepancy is due to new physics, we concentrate on a simple supersymmetric model that also provides a dark matter explanation in a previously unexplored region of supersymmetric parameter space. Such interesting region can realize a Bino-like dark matter candidate compatible with all current direct detection constraints for small to moderate values of the Higgsino mass parameter |μ| . This in turn would imply the existence of light additional Higgs bosons and Higgsino particles within reach of the high-luminosity LHC and future colliders. We provide benchmark scenarios that will be tested in the next generation of direct dark matter experiments and at the LHC.

Topics & Concepts

HiggsinoPhysicsParticle physicsMuonLarge Hadron ColliderHiggs bosonDark matterSupersymmetryAnomalous magnetic dipole momentParameter spaceMinimal Supersymmetric Standard ModelPhysics beyond the Standard ModelStandard Model (mathematical formulation)Nuclear physicsStatisticsGauge (firearms)MathematicsArchaeologyHistoryParticle physics theoretical and experimental studiesDark Matter and Cosmic PhenomenaComputational Physics and Python Applications