Constraints on Non-Standard Recombination from Recent CMB Observations

Abstract

We examine cosmic microwave background constraints on variations in the recombination history of the universe. We use a very general extension to the standard model of recombination characterized by two parameters, a and b, which multiply the overall rates of recombination and ionization and the binding energies of hydrogen respectively. We utilize WMAP temperature and TE cross-correlation data, along with temperature data at smaller scales from ACBAR and CBI, to place constraints on these parameters. The range of recombination histories which gives the best fit to the data is -0.6 < log(a) < 0.5 and 0.85 < b < 1.15, forming a diagonal region from low-a/high-b to high-a/low-b. We find zrec = 1055 +- 25 and δz = 198 +- 5 at 68% confidence for the range of recombination models which are best able to reproduce the observed CMB power spectra. Standard recombination provides an acceptable fit to the data; while there is still room for non-standard recombination, the allowed variation is small.

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