CMB power spectrum parameter degeneracies in the era of precision cosmology
Journal of Cosmology and Astroparticle Physics, 2012•iopscience.iop.org
Cosmological parameter constraints from the CMB power spectra alone suffer several well-
known degeneracies. These degeneracies can be broken by numerical artefacts and also a
variety of physical effects that become quantitatively important with high-accuracy data eg
from the Planck satellite. We study degeneracies in models with flat and non-flat spatial
sections, non-trivial dark energy and massive neutrinos, and investigate the importance of
various physical degeneracy-breaking effects. We test the CAMB power spectrum code for …
known degeneracies. These degeneracies can be broken by numerical artefacts and also a
variety of physical effects that become quantitatively important with high-accuracy data eg
from the Planck satellite. We study degeneracies in models with flat and non-flat spatial
sections, non-trivial dark energy and massive neutrinos, and investigate the importance of
various physical degeneracy-breaking effects. We test the CAMB power spectrum code for …
Abstract
Cosmological parameter constraints from the CMB power spectra alone suffer several well-known degeneracies. These degeneracies can be broken by numerical artefacts and also a variety of physical effects that become quantitatively important with high-accuracy data eg from the Planck satellite. We study degeneracies in models with flat and non-flat spatial sections, non-trivial dark energy and massive neutrinos, and investigate the importance of various physical degeneracy-breaking effects. We test the CAMB power spectrum code for numerical accuracy, and demonstrate that the numerical calculations are accurate enough for degeneracies to be broken mainly by true physical effects (the integrated Sachs-Wolfe effect, CMB lensing and geometrical and other effects through recombination) rather than numerical artefacts. We quantify the impact of CMB lensing on the power spectra, which inevitably provides degeneracy-breaking information even without using information in the non-Gaussianity. Finally we check the numerical accuracy of sample-based parameter constraints using CAMB and COSMOMC. In an appendix we document recent changes to CAMB's numerical treatment of massive neutrino perturbations, which are tested along with other recent improvements by our degeneracy exploration results.
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