On the Abundance of Primordial Helium
Abstract
We have used recent observations of helium-4, nitrogen and oxygen from some four dozen, low metallicity, extra-galactic HII regions to define mean N versus O, 4He versus N and 4He versus O relations which are extrapolated to zero metallicity to determine the primordial 4He mass fraction YP. The data and various subsets of the data, selected on the basis of nitrogen and oxygen, are all consistent with YP = 0.232 0.003. For the 2σ (statistical) upper bound we find YP2σ 0.238. Estimating a 2\% systematic uncertainty (σ syst = 0.005) leads to a maximum upper bound to the primordial helium mass fraction: YPMAX = YP2σ + σsyst 0.243. We compare these upper bounds to YP with recent calculations of the predicted yield from big bang nucleosynthesis to derive upper bounds to the nucleon-to-photon ratio η (η10 1010η) and the number of equivalent light ( 10 MeV) neutrino species. For YP 0.238 (0.243), we find η10 2.5 (3.9) and N ≤ 2.7 (3.1). If indeed YP 0.238, then BBN predicts enhanced production of deuterium and helium-3 which may be in conflict with the primordial abundances inferred from model dependent (chemical evolution) extrapolations of solar system and interstellar observations. Better chemical evolution models and more data - especially D-absorption in the QSO Ly-α clouds - will be crucial to resolve this potential crisis for BBN. The larger upper bound, YP ≤ 0.243 is completely
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