Hamann, JanShafieloo, ArmanSouradeep, Tarun2012-03-052012-03-052009-12-01http://hdl.handle.net/11007/392Features in the primordial power spectrum have been suggested as an explanation for glitches in the angular power spectrum of temperature anisotropies measured by the WMAP satellite. However, these glitches might just as well be artifacts of noise or cosmic variance. Using the e ective 2 between the best- t power-law spectrum and a deconvolved primordial spectrum as a measure of \featureness" of the data, we perform a full Monte-Carlo analysis to address the question of how signi cant the recovered features are. We nd that in 26% of the simulated data sets the reconstructed spectrum yields a greater improvement in the likelihood than for the actually observed data. While features cannot be categorically ruled out by this analysis, and the possibility remains that simple theoretical models which predict some of the observed features might stand up to rigorous statistical testing, our results suggest that WMAP data are consistent with the assumption of a featureless power-law primordial spectrum.enCMBR theoryOsmological parameters from CMBRInitial conditions and eternal universe.Article