Addendum to: Update on neutrino mixing in the early Universe
Abstract
In the light of the recent WMAP results we update the constraints on a class of non standard BBN models with a simultaneous combination of non standard neutrino distributions and extra effective number of neutrinos in the expansion rate. These models can be described in terms of the two parameters Delta Nnutot, constrained by the primordial Helium abundance Yp measurement, and Delta Nnurho, constrained by a combination of CMB and primordial Deuterium data. Small deviations from standard BBN are suggested. Different non standard scenarios can be distinguished by a measurement of the difference Delta Nnufnu=Delta Nnutot-Delta Nnurho. From the current data we estimate Delta Nnufnu simeq -1.4+0.9-1.4, mildly disfavouring solutions with a low expansion rate, characterized by Delta Nnufnu=0 and negative Delta Nnurho. Active-sterile neutrino mixing could be a viable explanation only for high values of Yp gtrsim 0.24. The existence of large positive neutrino chemical potentials xii sim 0.05, implying Delta Nnurho simeq 0, would be a possible explanation of the data within the analyzed class of non standard BBN models. Interestingly it would also provide a way to evade the cosmological bounds for `class A 3+1' four neutrino mixing models. A scenario with a decaying sterile neutrino is also considered.
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