Improved measurements of the temperature and polarization of the CMB   from QUaD

The QUaD collaboration: M. L. Brown (1); P. Ade (2); J. Bock (3,4); M.; Bowden (2,5); G. Cahill (6); P. G. Castro (7,8); S. Church (5); T.; Culverhouse (9); R. B. Friedman (9); K. Ganga (10); W. K. Gear (2); S. Gupta; (2); J. Hinderks (5,11); J. Kovac (4); A. E. Lange (4); E. Leitch (3,4); S.; J. Melhuish (12); Y. Memari (7); J. A. Murphy (6); A. Orlando (2,4); C.; O'Sullivan (6); L. Piccirillo (12); C. Pryke (9); N. Rajguru (2,13); B.; Rusholme (5,14); R. Schwarz (9); A. N. Taylor (7); K. L. Thompson (5); A. H.; Turner (2); E. Y. S. Wu (5); M. Zemcov (2,3,4) ((1) University of Cambridge,; (2) Cardiff University; (3) JPL; (4) Caltech; (5) Stanford University; (6); National University of Ireland Maynooth; (7) University of Edinburgh; (8); Universidade T\'ecnica de Lisboa; (9) University of Chicago; (10) Laboratoire; APC/CNRS; (11) NASA Goddard; (12) University of Manchester; (13) UCL; (14); IPAC)

arXiv:0906.1003·astro-ph.CO·February 11, 2011

Improved measurements of the temperature and polarization of the CMB from QUaD

The QUaD collaboration: M. L. Brown (1), P. Ade (2), J. Bock (3,4), M., Bowden (2,5), G. Cahill (6), P. G. Castro (7,8), S. Church (5), T., Culverhouse (9), R. B. Friedman (9), K. Ganga (10), W. K. Gear (2), S. Gupta, (2), J. Hinderks (5,11), J. Kovac (4), A. E. Lange (4)

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TL;DR

This paper presents an improved analysis of the QUaD CMB data, enhancing measurement precision, refining cosmological parameter constraints, and setting new limits on tensor modes and parity-violating interactions.

Contribution

It introduces advanced techniques for ground contamination removal, improved beam modeling, and tighter calibration, leading to more precise CMB power spectrum measurements and cosmological constraints.

Findings

01

30% increase in measurement precision

02

Strongest CMB limit on tensor-to-scalar ratio (r < 0.33)

03

Constraints on Lorentz-violating interactions and lensing B-modes

Abstract

We present an improved analysis of the final dataset from the QUaD experiment. Using an improved technique to remove ground contamination, we double the effective sky area and hence increase the precision of our CMB power spectrum measurements by ~30% versus that previously reported. In addition, we have improved our modeling of the instrument beams and have reduced our absolute calibration uncertainty from 5% to 3.5% in temperature. The robustness of our results is confirmed through extensive jackknife tests and by way of the agreement we find between our two fully independent analysis pipelines. For the standard 6-parameter LCDM model, the addition of QUaD data marginally improves the constraints on a number of cosmological parameters over those obtained from the WMAP experiment alone. The impact of QUaD data is significantly greater for a model extended to include either a running in…

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