Neutrino-Mixing-Generated Lepton Asymmetry and the Primordial 4He Abundance
Abstract
It has been proposed that an asymmetry in the electron neutrino sector may be generated by resonant active-sterile neutrino transformations during Big Bang Nucleosynthesis (BBN). We calculate the change in the primordial 4He yield Y resulting from this asymmetry, taking into account both the time evolution of the e and e distribution function and the spectral distortions in these. We calculate this change in two schemes: (1) a lepton asymmetry directly generated by e mixing with a lighter right-handed sterile neutrino s; and (2) a lepton asymmetry generated by a τs or μs transformation which is subsequently partially converted to an asymmetry in the ee sector by a matter-enhanced active-active neutrino transformation. In the first scheme, we find that the percentage change in Y is between -1% and 9% (with the sign depending on the sign of the asymmetry), bounded by the Majorana mass limit m_e 1 eV. In the second scheme, the maximal percentage reduction in Y is 2%, if the lepton number asymmetry in neutrinos is positive; Otherwise, the percentage increase in Y is 5% for m2_μ,τ-m2_s 104 eV. We conclude that the change in the primordial 4He yield induced by a neutrino-mixing-generated lepton number asymmetry can be substantial in the upward direction, but limited in the downward direction.
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