3.2.3. Cluster Abundance Versus the COBE Normalisation
There are a number of ways to infer 8 from galaxy clustering and peculiar velocity fields. The problem with the information from galaxy clustering is that it involves an unknown biasing factor, which hinders us from determining an accurate 8. The velocity data are susceptible to noise from the distance indicators. Therefore, the cluster abundance discussed above seems to give us a unique method to derive an accurate estimate of 8 for a low z universe. Another place we can extract an accurate 8 is the fluctuation power imprinted on cosmic microwave background radiation (CBR) anisotropies. Currently only the COBE observation (Bennett et al. 1996) gives sufficiently accurate 8 = 8(H0, , , B, ...). Assuming the model transformation function, the matching of COBE 8 with that from the cluster abundance gives a significant constraint on cosmological parameters = (H0, ) (Efstathiou et al. 1992; Eke et al. 1996). Figure 4 shows allowed regions for two cases, open and flat universes, assuming a flat perturbation spectrum n = 1 and ignoring possible tensor perturbations.
The transfer function is modified if n 1. The possible presence of the tensor perturbations in CBR anisotropies causes another uncertainty. The COBE data alone say n being between 0.9 and 1.5 (Bennett et al. 1996), but the allowed range is narrowed to n = 0.9-1.2 if supplemented by smaller angular-scale CBR anisotropy data (Hancock et al. 1998; Lineweaver 1998; Efstathiou et al. 1999; Tegmark 1999). The presence of the tensor mode would make the range of n more uncertain as well as it reduces the value of 8. The limit of n when the tensor mode is maximally allowed is about < 1.3 (4). Notwithstanding these uncertainties, > 0.5 is difficult to reconcile with the matching condition. On the other hand, a too small ( 0.15) is not consistent with the cluster abundance.
4 In Tegmark's analysis n < 1.5 is
quoted as an upper bound, but this is obtained by making
B (and
H0) a free parameter.
If one would fix the baryon abundance,
the allowed range is narrower, n
3.
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