Light sterile neutrinos, dark matter, and new resonances in a U(1) extension of the MSSM

Abstract

We present 'MSSM, a model based on a U(1)' extension of the minimal supersymmetric standard model. The gauge symmetry U(1)', also known as U(1)N, is a linear combination of the U(1) and U(1) subgroups of E6. The model predicts the existence of three sterile neutrinos with masses 0.1~ eV, if the U(1)' breaking scale is of order 10 TeV. Their contribution to the effective number of neutrinos at nucleosynthesis is N 0.29. The model can provide a variety of possible cold dark matter candidates including the lightest sterile sneutrino. If the U(1)' breaking scale is increased to 103~ TeV, the sterile neutrinos, which are stable on account of a Z2 symmetry, become viable warm dark matter candidates. The observed value of the standard model Higgs boson mass can be obtained with relatively light stop quarks thanks to the D-term contribution from U(1)'. The model predicts diquark and diphoton resonances which may be found at an updated LHC. The well-known μ problem is resolved and the observed baryon asymmetry of the universe can be generated via leptogenesis. The breaking of U(1)' produces superconducting strings that may be present in our galaxy. A U(1) R symmetry plays a key role in keeping the proton stable and providing the light sterile neutrinos.