Future Probes of the Primordial Scalar and Tensor Perturbation Spectra: Prospects from the CMB, Cosmic Shear and High-Volume Redshift Surveys
Abstract
Detailed study of the scalar and tensor perturbation spectra can provide much information about the primordial fluctuation-generator, be it inflation or something else. The tensor perturbation spectrum may be observable through its influence on CMB polarization, but only if the tensor-to-scalar ratio, r = T/S, is greater than about 10-5. The tensor tilt can be measured with an error of sigma(nT) that decreases with r from 0.1 at r=0.001 to 0.02 at r = 0.1. Current CMB constraints on the scalar perturbation spectrum can be improved by higher--resolution CMB observations and/or by tomographic cosmic shear observations. These can both shrink errors on the tilt (nS) and running (nS'= dnS/d k) to the 10-3 level. Stunning as these results would be, it may become very desirable to improve upon them an order of magnitude further in order to study the expected departures from nS' = 0. Such improvements are likely to require observation of three--dimensional clustering over very large volumes. Unfortunately, to get down to the 10-4 level will require a sparse spectroscopic redshift survey with about 109 galaxies spread over a volume less than but comparable to that of the observable Universe.
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