Astronomy and Astrophysics – Astrophysics
Scientific paper
1995-03-04
Astronomy and Astrophysics
Astrophysics
14 pages, uuencoded compressed .ps file; revised: typos corrected.
Scientific paper
I discuss the Hubble parameter $H_0$, the age of the universe $t_0$, the density $\Omega_0$, and the cosmological constant $\Lambda$. To focus the discussion, I concentrate on the issue of the value of the density $\Omega_0$ in currently popular cosmological models in which most of the dark matter is cold, especially Cold + Hot Dark Matter (CHDM) and flat low- $\Omega$ CDM with a Cosmological Constant ($\Lambda$CDM). The evidence would favor a small $\Omega_0 \approx 0.3$ if (1) the Hubble parameter actually has the high value $h \approx 0.8$ favored by many observers, and the age of the universe $t_0 \geq 13$ Gy; or (2) the baryonic/total mass ratio in clusters is actually $\sim 20$\%, about 3-4 times larger than expected for standard Big Bang Nucleosynthesis in an $\Omega=1$ universe, and standard BBN is actually right in predicting that the density of ordinary matter $\Omega_b$ lies in the range $0.009 \leq \Omega_b h^2 \leq 0.02$. The evidence would favor $\Omega=1$ if (1) the POTENT analysis of galaxy peculiar velocity data is right, in particular regarding outflows from voids or the inability to obtain the present-epoch non-Gaussian density distribution from Gaussian initial fluctuations in a low-$\Omega$ universe; or (2) the preliminary report from LSND indicating a neutrino mass $\geq 2.4$ eV is right, since that would be too much hot dark matter to allow significant structure formation in a low-$\Omega$ $\Lambda$CDM model. Statistics on gravitational lensing of quasars provide a strong upper limit on $\Lambda$. Reliable data on all of these issues is becoming available so rapidly today that a clear decision between these alternatives may be possible within the next few years.
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