Implications of the μ s solution to the atmospheric neutrino anomaly for early Universe cosmology
Abstract
By numerically solving the quantum kinetic equations we compute the range of parameters where the μ s oscillation solution to the atmospheric neutrino anomaly is consistent with a stringent big bang nucleosynthesis (BBN) bound of NeffBBN < 3.6. We show that this requires tau neutrino masses in the range m_τ > 4 eV (for |δ m2atm| = 10-2.5 eV2). We discuss the implications of this scenario for hot+cold dark matter, BBN, and the anisotropy of the cosmic microwave background.
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