Observational Constraints on the Spectral Index
Abstract
We address the possibility of bounding the spectral index n of primordial density fluctuations, using both the cosmic microwave background (cmb) anisotropy and data on galaxies and clusters. Each piece of galaxy and cluster data is reduced to a value of σ(R) (the linearly evolved rms density contrast with top hat smoothing on scale R) which allows data on different scales to be readily compared. As a preliminary application, we normalise the spectrum using the ten degree variance of the COBE data, and then compare the prediction with a limited sample of low energy data, for the MDM model with various values of n, and h. With h=.5, the data constrain the spectral index to the range 0.7 n 1.2. If gravitational waves contribute to the cmb anisotropy with relative strength R=6(1-n) (as in some models of inflation), the lower limit on n is increased to about 0.85. The uncertainty in h widens this band by about 0.1 at either end.
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