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COSMOGLOBE DR1 results. I. Improved Wilkinson Microwave Anisotropy Probe maps through Bayesian end-to-end analysis

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dc.contributor.author Watts, D. J
dc.contributor.author Basyrov, A
dc.contributor.author Eskilt, J. R
dc.contributor.author Galloway, M
dc.contributor.author Gjerlow, E
dc.contributor.author Hergt, L. T
dc.contributor.author Herman, D
dc.contributor.author Ihle, H. T
dc.contributor.author Paradiso, S
dc.contributor.author Fazlu, Rahman
dc.contributor.author Thommesen, H
dc.contributor.author Aurlien, R
dc.contributor.author Bersanelli, M
dc.contributor.author Bianchi, L. A
dc.contributor.author Brilenkov, M
dc.contributor.author Colombo, L. P. L
dc.contributor.author Eriksen, H. K
dc.contributor.author Franceschet, C
dc.contributor.author Fuskeland, U
dc.contributor.author Hensley, B
dc.contributor.author Hoerning, G. A
dc.contributor.author Lee, K
dc.contributor.author Lunde, J. G. S
dc.contributor.author Marins, A
dc.contributor.author Nerval, S. K
dc.contributor.author Patel, S. K
dc.contributor.author Regnier, M
dc.contributor.author San, M
dc.contributor.author Sanyal, S
dc.contributor.author Stutzer, N.O
dc.contributor.author Verma, A
dc.contributor.author Wehus, I. K
dc.contributor.author Zhou, Y
dc.date.accessioned 2024-01-09T05:27:00Z
dc.date.available 2024-01-09T05:27:00Z
dc.date.issued 2023-11
dc.identifier.citation Astronomy & Astrophysics, Vol. 679, A143 en_US
dc.identifier.issn 0004-6361
dc.identifier.uri http://hdl.handle.net/2248/8324
dc.description Open Access en_US
dc.description Open Access article, published by EDP Sciences, under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
dc.description.abstract We present COSMOGLOBE Data Release 1, which implements the first joint analysis of WMAP and Planck LFI time-ordered data, processed within a single Bayesian end-to-end framework. This framework directly builds on a similar analysis of the LFI measurements by the BEYONDPLANCK collaboration, and approaches the cosmic microwave background (CMB) analysis challenge through Gibbs sampling of a global posterior distribution, simultaneously accounting for calibration, mapmaking, and component separation. The computational cost of producing one complete WMAP+LFI Gibbs sample is 812 CPU-h, of which 603 CPU-h are spent on WMAP low-level processing; this demonstrates that end-to-end Bayesian analysis of the WMAP data is computationally feasible. We find that our WMAP posterior mean temperature sky maps and CMB temperature power spectrum are largely consistent with the official WMAP9 results. Perhaps the most notable difference is that our CMB dipole amplitude is 3366.2 ± 1.4 μK, which is 11 μK higher than the WMAP9 estimate and 2.5σ higher than BEYONDPLANCK; however, it is in perfect agreement with the HFI-dominated Planck PR4 result. In contrast, our WMAP polarization maps differ more notably from the WMAP9 results, and in general exhibit significantly lower large-scale residuals. We attribute this to a better constrained gain and transmission imbalance model. It is particularly noteworthy that the W-band polarization sky map, which was excluded from the official WMAP cosmological analysis, for the first time appears visually consistent with the V-band sky map. Similarly, the long standing discrepancy between the WMAP K-band and LFI 30 GHz maps is finally resolved, and the difference between the two maps appears consistent with instrumental noise at high Galactic latitudes. Relatedly, these updated maps allowed us for the first time to combine WMAP and LFI polarization data into a single coherent model of large-scale polarized synchrotron emission. Still, we identified a few issues that require additional work, including (1) low-level noise modeling; (2) large-scale temperature residuals at the 1-2 μK level; and (3) a strong degeneracy between the absolute K-band calibration and the dipole of the anomalous microwave emission component. We conclude that leveraging the complementary strengths of WMAP and LFI has allowed the mitigation of both experiments' weaknesses, and resulted in new state-of-the-art WMAP sky maps. All maps and the associated code are made publicly available through the COSMOGLOBE web page. en_US
dc.language.iso en en_US
dc.publisher EDP Sciences en_US
dc.relation.uri https://doi.org/10.1051/0004-6361/202346414
dc.rights © The Authors 2023
dc.subject ISM: general en_US
dc.subject Cosmology: observations en_US
dc.subject Cosmic background radiation en_US
dc.subject Diffuse radiation en_US
dc.subject Galaxy: general en_US
dc.subject Astrophysics - Cosmology and Non-galactic Astrophysics en_US
dc.title COSMOGLOBE DR1 results. I. Improved Wilkinson Microwave Anisotropy Probe maps through Bayesian end-to-end analysis en_US
dc.type Article en_US


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