Unified Interpretation of Muon g-2 anomaly, 95 GeV Diphoton, and bb Excesses in the General Next-to-Minimal Supersymmetric Standard Model

Abstract

We investigate three intriguing anomalies within the framework of the General Next-to-Minimal Supersymmetric Standard Model. These anomalies include a significant deviation of the experimental results for the muon anomalous magnetic moment from its Standard Model prediction, with a confidence level of 5.1σ; a joint observation by the CMS and ATLAS collaborations of a diphoton excess with a local significance of 3.1 σ in the invariant mass distribution around 95.4 GeV; and a reported excess in the bb production at LEP with a local significance of 2.3 σ. Through analytical and numerical analyses, we provide unified interpretations across an extensive parameter space that remain consistent with current experimental restrictions from data on the Higgs boson at 125 GeV, B-physics measurements, dark matter observables, as well as existing searches for supersymmetry and extra Higgs bosons. We attribute the muon anomaly to loops involving muon-smuon-neutralino and muon-sneutrino-chargino interactions, while attributing the diphoton and b b excesses to the resonant production of a singlet-dominated scalar. These proposed solutions are poised for experimental tests at the high-luminosity LHC and future linear colliders.