Non-Nucleosynthetic Constraints on the Baryon Density and Other Cosmological Parameters

Abstract

Because the baryon-to-photon ratio eta10 is in some doubt, we drop nucleosynthetic constraints on eta10 and fit the three cosmological parameters (h, OmegaM, eta10) to four observational constraints: Hubble parameter ho = 0.70+-0.15, age of the universe to = 14+7-2 Gyr, cluster gas fraction fo fG h3/2 = 0.060 +- 0.006, and effective shape parameter Gammao = 0.255 +- 0.017. Errors quoted are 1 sigma, and we assume Gaussian statistics. We experiment with a fifth constraint Omegao = 0.2 +- 0.1 from clusters. We set the tilt parameter n = 1 and the gas enhancement factor Upsilon = 0.9. We consider CDM models (open and OmegaM = 1) and flat LambdaCDM models. We test goodness of fit and draw confidence regions by the Delta chi2 method. CDM models with OmegaM = 1 (SCDM models) are accepted only because the large error on ho allows h < 0.5. Baryonic matter plays a significant role in Gammao when OmegaM 1. Open CDM models are accepted only for OmegaM 0.4. The combination of the four other constraints with Omegao = 0.2 +- 0.1 is rejected in CDM models with 98% confidence, suggesting that light may not trace mass. LambdaCDM models give similar results. In all of these models, eta10 6 is favored strongly over eta10 2. This suggests that reports of low deuterium abundances on QSO lines of sight may be correct and that observational determinations of primordial 4He may have systematic errors. Plausible variations on n and Upsilon in our models do not change the results much. If we drop or change the crucial Gammao constraint, lower values of OmegaM and eta10 are permitted. The constraint Gammao = 0.15 +- 0.04, derived recently from the IRAS redshift survey, favors OmegaM ≈ 0.3 and eta10 ≈ 5 but does not exclude eta10 ≈ 2.

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