The standard and degenerate primordial nucleosynthesis versus recent experimental data

We report the results on Big Bang Nucleosynthesis (BBN) based on an updated code, with accuracy of the order of 0.1% on He-4 abundance, compared with the predictions of other recent similar analysis. We discuss the compatibil ity of the theoretical results, for vanishing neutrino chemical potentials, with the observational data. Bounds on the number of relativistic neutrino s and baryon abundance are obtained by a likelihood analysis. We also analy ze the effect of large neutrino chemical potentials on primordial nucleosyn thesis, motivated by the recent results on the Cosmic Microwave Background Radiation spectrum. The BBN exclusion plots for electron neutrino chemical potential and the effective number of relativistic neutrinos are reported. We find that the standard BBN seems to be only marginally in agreement with the recent BOOMERANG and MAXIMA-1 results, while the agreement is much bet ter for degenerate BBN scenarios for large effective number of neutrinos, N -nu similar to 10. For the low D data, standard BBN is still viable for eta similar to (5 divided by 6) . 10(-10).