Bounds on supersymmetric effective operators from heavy diphoton searches

Abstract

We identify the bounds on supersymmetric effective operators beyond MSSM, from heavy diphoton resonance (X) negative searches at the LHC, where X is identified with the neutral CP-even (odd) H (A) or both (mass degenerate). While minimal supersymmetric models (MSSM, etc) comply with the data, a leading effective operator of d=6 can contribute significantly to diphoton production σ 1 fb, well above its MSSM value and in conflict with recent data. Both the b b and gg production mechanisms of H and A can contribute comparably to this. We examine the dependence of the diphoton cross section σ on the values of mX, and β, under the experimental constraints from the SM-like higgs couplings hgg and hγγ (due to mixing) and from the b b and t t searches. These give larger than 5 TeV for mX in the range 0.5-1 TeV. We show how to generate the d=6 effective operator from microscopic (renormalizable) models. This demands the presence of vector-like states beyond the MSSM spectrum (and eventually but not necessarily a gauge singlet), of mass near and thus outside the LHC reach.