Constraining non standard recombination: A worked example
Abstract
We fit the BOOMERANG, MAXIMA and COBE/DMR measurements of the cosmic microwave background anisotropy in spatially flat cosmological models where departures from standard recombination of the primeval plasma are parametrized through a change in the fine structure constant α compared to its present value. In addition to α we vary the baryon and dark matter densities, the spectral index of scalar fluctuations, and the Hubble constant. Within the class of models considered, the lack of a prominent second acoustic peak in the measured spectrum can be accomodated either by a relatively large baryon density, by a tilt towards the red in the spectrum of density fluctuations, or by a delay in the time at which neutral hydrogen formed. The ratio between the second and first peak decreases by around 25% either if the baryon density bh2 is increased or the spectral index n decreased by a comparable amount, or if neutral hydrogen formed at a redshift z* about 15% smaller than its standard value. We find that the present data is best fitted by a delay in recombination, with a lower baryon density than the best fit if recombination is standard. Our best fit model has z*= 900, bh2=0.024, mh2=0.14, H0=49 and n=1.02. Compatible with present data at 95% confidence level 780< z*<1150, 0.018<bh2<0.036, 0.07< m h2 < 0.3 and 0.9<n<1.2.
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