Reconstructing the Primordial Spectrum from WMAP Data by the Cosmic Inversion Method
摘要
We reconstruct the primordial spectrum of the curvature perturbation, , from the observational data of the Wilkinson Microwave Anisotropy Probe (WMAP) by the cosmic inversion method developed recently. In contrast to conventional parameter-fitting methods, our method can potentially reproduce small features in with good accuracy. As a result, we obtain a complicated oscillatory . We confirm that this reconstructed recovers the WMAP angular power spectrum with resolution up to . Similar oscillatory features are found, however, in simulations using artificial cosmic microwave background data generated from a scale-invariant with random errors that mimic observation. In order to examine the statistical significance of the nontrivial features, including the oscillatory behaviors, therefore, we consider a method to quantify the deviation from scale-invariance and apply it to the reconstructed from the WMAP data. We find that there are possible deviations from scale-invariance around and .
引用
@article{arxiv.astro-ph/0309662,
title = {Reconstructing the Primordial Spectrum from WMAP Data by the Cosmic Inversion Method},
author = {Noriyuki Kogo and Makoto Matsumiya and Misao Sasaki and Jun'ichi Yokoyama},
journal= {arXiv preprint arXiv:astro-ph/0309662},
year = {2009}
}
备注
20 pages, 16 figures, version to be published in ApJ