Reconciling Cold Dark Matter with COBE/IRAS Plus Solar and Atmospheric Neutrino Data
Abstract
We present a model where an unstable MeV Majorana tau can naturally reconcile the cold dark matter model (CDM) with cosmological observations of large and small scale density fluctuations and, simultaneously, with data on solar and atmospheric neutrinos. The solar deficit is explained through long wavelength, so-called just-so oscillations involving conversions of into both and a sterile species , while atmospheric data are explained through to conversions. Future long baseline oscillation experiments, as well as some reactor experiments will test this hypothesis. The model is based on the spontaneous violation of a global lepton number symmetry at the weak scale. This symmetry plays a key role in generating the cosmologically required decay of the with lifetime τ_τ 102 - 104 seconds, as well as the masses and oscillations of the three light , and required in order to account for solar and atmospheric data. It also leads to the invisibly decaying higgs signature that can be searched at LEP and future particle colliders.
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