Cosmological Results from Five Years of 30 GHz CMB Intensity Measurements with the Cosmic Background Imager

TL;DR

This paper presents five years of 30 GHz CMB measurements from the CBI, confirming excess small-scale power, analyzing its origins, and constraining cosmological parameters with improved data and analysis techniques.

Contribution

It provides the final CBI power spectrum with improved analysis, constrains foreground contamination, and offers a comprehensive cosmological parameter analysis including excess power implications.

Findings

Confirmed excess power at small angular scales (~3-sigma)

Foreground sources unlikely to explain the excess

Improved constraints on cosmological parameters and cosmic strings

Abstract

We present final results on the angular power spectrum of total intensity anisotropies in the CMB from the CBI. Our analysis includes all primordial anisotropy data collected between January 2000 and April 2005, and benefits significantly from an improved maximum likelihood analysis pipeline. It also includes results from a 30 GHz foreground survey conducted with the Green Bank Telescope (GBT) which places significant constraints on the possible contamination due to foreground point sources. We improve on previous CBI results by about a factor of two in the damping tail. These data confirm, at ~3-sigma, the existence of an excess of power over intrinsic CMB anisotropy on small angular scales (l > 1800). Using the GBT survey, we find currently known radio source populations are not capable of generating the power; a new population of faint sources with steeply rising spectral indices would be required to explain the excess with sources... We also present a full cosmological parameter analysis of the new CBI power spectrum... With CBI alone, the full parameter analysis finds the excess is 1.6-sigma above the level expected for a sigma_8=0.8 universe. We find the addition of high-l CMB data substantially improves constraints on cosmic string contributions to the TT power spectrum as well as the running of the scalar spectral index... We also present forecasts for what other experiments should see at different frequencies and angular resolutions given the excess power observed by CBI. We find that the reported high-l bandpowers from current high resolution CMB bolometer experiments are consistent with each other and CBI if the excess power is due to the SZE at the CBI-level of 2.5 +/- 1 times the sigma_8=0.8 standard SZ template. <Abridged>