Resurrecting No-Scale Supergravity Phenomenology

Abstract

In the context of phenomenological models in which the soft supersymmetry-breaking parameters of the MSSM become universal at some unification scale, Min, above the GUT scale, , it is possible that all the scalar mass parameters m0, the trilinear couplings A0 and the bilinear Higgs coupling B0 vanish simultaneously, as in no-scale supergravity. Using these no-scale inputs in a renormalization-group analysis of the minimal supersymmetric SU(5) GUT model, we pay careful attention to the matching of parameters at the GUT scale. We delineate the region of Min, m1/2 and β where the resurrection of no-scale supergravity is possible, taking due account of the relevant phenomenological constraints such as electroweak symmetry breaking, mh, b s γ, the neutralino cold dark matter density and gμ - 2. No-scale supergravity survives in an L-shaped strip of parameter space, with one side having with one side having m1/2 200 GeV, the second (orthogonal) side having Min 5 × 1016 GeV. Depending on the relative signs and magnitudes of the GUT superpotential couplings, these may be connected to form a triangle whose third side is a hypotenuse at larger Min, m1/2 and β, whose presence and location depend on the GUT superpotential parameters. We compare the prospects for detecting sparticles at the LHC in no-scale supergravity with those in the CMSSM and the NUHM.