Sensitivity-Improved Polarization Maps at 40 GHz with CLASS and WMAP data
Abstract
Improved polarization measurements at frequencies below 70 GHz with degree-level angular resolution are crucial for advancing our understanding of the Galactic synchrotron radiation and the potential polarized anomalous microwave emission and ultimately benefiting the detection of primordial modes. In this study, we present sensitivity-improved 40 GHz polarization maps obtained by combining the CLASS 40 GHz and WMAP -band data through a weighted average in the harmonic domain. The decision to include WMAP -band data stems from similarities in the bandpasses. Leveraging the accurate large-scale measurements from WMAP band and the high-sensitivity information from CLASS 40 GHz band at intermediate scales, the noise level at is reduced by a factor of in the map space. A pixel domain analysis of the polarized synchrotron spectral index () using WMAP band and the combined maps (mean and 16/84th percentile across the map: ) reveals a stronger preference for spatial variation (PTE for a uniform hypothesis smaller than 0.001) than the results obtained using WMAP and bands (). The cross-power spectra of the combined maps follow the same trend as other low-frequency data, and validation through simulations indicates negligible bias introduced by the combination method (sub-percent level in the power spectra). The products of this work are publicly available on .
Cite
@article{arxiv.2404.17567,
title = {Sensitivity-Improved Polarization Maps at 40 GHz with CLASS and WMAP data},
author = {Rui Shi and John W. Appel and Charles L. Bennett and Ricardo Bustos and David T. Chuss and Sumit Dahal and Jullianna Denes Couto and Joseph R. Eimer and Thomas Essinger-Hileman and Kathleen Harrington and Jeffrey Iuliano and Yunyang Li and Tobias A. Marriage and Matthew A. Petroff and Karwan Rostem and Zeya Song and Deniz A. N. Valle and Duncan J. Watts and Janet L. Weiland and Edward J. Wollack and Zhilei Xu},
journal= {arXiv preprint arXiv:2404.17567},
year = {2024}
}
Comments
19 pages, 16 figures, 1 table, accepted for publication in ApJ