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The Astrophysical Journal Volume 701 Number 2 Create an alert RSS this journal

J. Dunkley et al. 2009 ApJ 701 1804 doi:10.1088/0004-637X/701/2/1804

FIVE-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE (WMAP *) OBSERVATIONS: BAYESIAN ESTIMATION OF COSMIC MICROWAVE BACKGROUND POLARIZATION MAPS

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J. Dunkley1,2,3, D. N. Spergel2,4, E. Komatsu5, G. Hinshaw6, D. Larson7, M. R. Nolta8, N. Odegard9, L. Page1, C. L. Bennett7, B. Gold7, R. S. Hill9, N. Jarosik1, J. L. Weiland9, M. Halpern10, A. Kogut6, M. Limon11, S. S. Meyer12, G. S. Tucker13, E. Wollack6 and E. L. Wright14

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Abstract References Cited By

We describe a sampling method to estimate the polarized cosmic microwave background (CMB) signal from observed maps of the sky. We use a Metropolis-within-Gibbs algorithm to estimate the polarized CMB map, containing Q and U Stokes parameters at each pixel, and its covariance matrix. These can be used as inputs for cosmological analyses. The polarized sky signal is parameterized as the sum of three components: CMB, synchrotron emission, and thermal dust emission. The polarized Galactic components are modeled with spatially varying power-law spectral indices for the synchrotron, and a fixed power law for the dust, and their component maps are estimated as by-products. We apply the method to simulated low-resolution maps with pixels of side 7.2 deg, using diagonal and full noise realizations drawn from the WMAP noise matrices. The CMB maps are recovered with goodness of fit consistent with errors. Computing the likelihood of the E-mode power in the maps as a function of optical depth to reionization, τ, for fixed temperature anisotropy power, we recover τ = 0.091 ± 0.019 for a simulation with input τ = 0.1, and mean τ = 0.098 averaged over 10 simulations. A "null" simulation with no polarized CMB signal has maximum likelihood consistent with τ = 0. The method is applied to the five-year WMAP data, using the K, Ka, Q, and V channels. We find τ = 0.090 ± 0.019, compared to τ = 0.086 ± 0.016 from the template-cleaned maps used in the primary WMAP analysis. The synchrotron spectral index, β, averaged over high signal-to-noise pixels with standard deviation σ(β) < 0.25, but excluding ~6% of the sky masked in the Galactic plane, is –3.03 ± 0.04. This estimate does not vary significantly with Galactic latitude, although includes an informative prior.


Footnote
WMAP is the result of a partnership between Princeton University and NASA's Goddard Space Flight Center. Scientific guidance is provided by the WMAP Science Team.
Keywords

cosmic microwave background; cosmology: observations; methods: statistical; polarization; radio continuum: ISM


Dates

Issue 2 (2009 August 20)

Received 2008 November 26, accepted for publication 2009 June 22

Published 2009 August 6



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