The 14 TeV LHC Takes Aim at SUSY: A No-Scale Supergravity Model for LHC Run 2

Abstract

The Supergravity model named No-Scale F-SU(5), which is based upon the flipped SU(5) Grand Unified Theory (GUT) with additional TeV-scale vector-like flippon multiplets, has been partially probed during the LHC Run 1 at 7-8 TeV, though the majority of its model space remains viable and should be accessible by the 13-14 TeV LHC during Run 2. The model framework possesses the rather unique capacity to provide a light CP-even Higgs boson mass in the favored 124-126 GeV window while simultaneously retaining a testably light supersymmetry (SUSY) spectrum. We summarize the outlook for No-Scale F-SU(5) at the 13-14 TeV LHC and review a promising methodology for the discrimination of its long-chain cascade decay signature. We further show that proportional dependence of all model scales upon the unified gaugino mass M1/2 minimizes electroweak fine-tuning, allowing the Z-boson mass MZ to be expressed as an explicit function of M1/2, MZ2 = MZ2 (M1/22), with implicit dependence upon a dimensionless ratio c of the supersymmetric Higgs mixing parameter μ and M1/2. Finally, we elucidate an empirical connection between recent scalar tensor measurements and No-Scale Supergravity cosmological models that mimic the Starobinsky model of inflation.