We interpret the di-photon excess recently reported by the ATLAS and CMS
collaborations as a new resonance arising from the sgoldstino scalar, which is
the superpartner of the Goldstone mode of spontaneous supersymmetry breaking,
the goldstino. The sgoldstino is produced at the LHC via gluon fusion and
decays to photons, with interaction strengths proportional to the corresponding
gaugino masses over the supersymmetry breaking scale. Fitting the excess, while
evading bounds from searches in the di-jet, Zγ, ZZ and WW final
states, selects the supersymmetry breaking scale to be a few TeV, and
particular ranges for the gaugino masses. The two real scalars, corresponding
to the CP-even and CP-odd parts of the complex sgoldstino, both have narrow
widths, but their masses can be split of the order 10-30 GeV by electroweak
mixing corrections, which could account for the preference of a wider resonance
width in the current low-statistics data. In the parameter space under
consideration, tree-level F-term contributions to the Higgs mass arise, in
addition to the standard D-term contribution proportional to the Z-boson
mass, which can significantly enhance the tree level Higgs mass.Comment: 3 pages, 1 figure; v2: 5 pages, 2 figures, discussion improved, plot
added, references added, results unchange
