Cosmology with the CMB temperature-polarization correlation
arXiv:1609.09730 · doi:10.1051/0004-6361/201629815
Abstract
We demonstrate that the cosmic microwave background (CMB) temperature-polarization cross-correlation provides accurate and robust constraints on cosmological parameters. We compare them with the results from temperature or polarization and investigate the impact of foregrounds, cosmic variance, and instrumental noise. This analysis makes use of the Planck high-multipole HiLLiPOP likelihood based on angular power spectra, which takes into account systematics from the instrument and foreground residuals directly modelled using Planck measurements. The temperature-polarization correlation (TE) spectrum is less contaminated by astrophysical emissions than the temperature power spectrum (TT), allowing constraints that are less sensitive to foreground uncertainties to be derived. For ÎCDM parameters, TE gives very competitive results compared to TT. For basic ÎCDM model extensions (such as AL, Σmν, or Neff ), it is still limited by the instrumental noise level in the polarization maps.
15 pages, 17 figures. Accepted in A&A