QUIJOTE 科学成果 -- XVIII.明亮银河区异常微波发射极化的新约束：$ρ$\, Ophiuchi, Perseus 和 W43

arXiv - PHYS - Cosmology and Nongalactic Astrophysics Pub Date : 2024-09-05 DOI:arxiv-2409.03418

R. González-González, R. T. Génova-Santos, J. A. Rubiño-Martín, M. W. Peel, F. Guidi, C. H. López-Caraballo, M. Fernández-Torreiro, R. Rebolo, C. Hernández-Monteagudo, D. Adak, E. Artal, M. Ashdown, R. B. Barreiro, F. J. Casas, E. de la Hoz, A. Fasano, D. Herranz, R. J. Hoyland, E. Martínez-González, G. Pascual-Cisneros, L. Piccirillo, F. Poidevin, B. Ruiz-Granados, D. Tramonte, F. Vansyngel, P. Vielva, R. A. Watson

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引用次数: 0

摘要

这项工作的重点是研究 AME，它是 10 和 60 GHz 之间的一种重要发射机制，其偏振特性尚未得到充分了解，因此是未来 CMB 偏振观测的潜在污染源。我们利用新的 QUIJOTE-MFI 地图 11、13、17 和 19 GHz，以及包括 WMAP 和 Planck 在内的其他公开辅助数据，研究了 AME 在三个银河系区域的偏振特性：河口、英仙座和 W43。我们获得了这三个区域在 0.4-3000 GHz 频率范围内的 SED，包括强度和偏振。强度 SED 由自由发射、热尘埃、AME 和 CMBanisotropies 共同描述。在偏振方面，我们利用 11 和 353 GHz 之间的所有可用数据提取了通量密度。我们采用了一种改进的强度-偏振泄漏校正方法，首次从普朗克-LFI 数据中得出了远低于 1%水平的可靠偏振约束。对 10-60 GHz 范围内的地图进行频率叠加，使我们能够降低统计噪声，并推高 AME 偏振水平的上限。我们得到了三个区域的 AME 偏振分数的上限，数量级小于 1%（置信度 95%）。特别是，我们在菱形蛇口、英仙座和W43分别得到了Pi_AME小于1.1%（28.4 GHz）、Pi_AME小于1.1%（22.8 GHz）和Pi_AME小于0.28%（33 GHz）的结果。在 QUIJOTE 17 GHz 频段，我们得到 rho-Ophiuchi 的 Pi_AME< 5.1%，Perseus 的 Pi_AME< 3.5%，W43 的 Pi_AME< 0.85%。利用堆叠程序得出的最终上限是：Rho-Ophiuchi 的 Pi_AME< 0.58%，Perseus 的 Pi_AME< 1.64%，W43 的 Pi_AME< 0.31%。总之，这是迄今为止对这三个恒星形成区的AME极化分量最严格的约束。

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QUIJOTE scientific results -- XVIII. New constraints on the polarization of the Anomalous Microwave Emission in bright Galactic regions: $ρ$\,Ophiuchi, Perseus and W43

This work focuses on the study of the AME, an important emission mechanism between 10 and 60 GHz whose polarization properties are not yet fully understood, and is therefore a potential contaminant for future CMB polarization observations. We use new QUIJOTE-MFI maps 11, 13, 17 and 19 GHz, together with other public ancillary data including WMAP and Planck, to study the polarization properties of the AME in three Galactic regions: rho-Ophiuchi, Perseus and W43. We have obtained the SEDs for those three regions over the frequency range 0.4-3000 GHz, both in intensity and polarization. The intensity SEDs are well described by a combination of free-free emission, thermal dust, AME and CMB anisotropies. In polarization, we extracted the flux densities using all available data between 11 and 353 GHz. We implemented an improved intensity-to-polarization leakage correction that has allowed for the first time to derive reliable polarization constraints well below the 1% level from Planck-LFI data. A frequency stacking of maps in the range 10-60 GHz has allowed us to reduce the statistical noise and to push the upper limits on the AME polarization level. We have obtained upper limits on the AME polarization fraction of order <1% (95% confidence level) for the three regions. In particular we get Pi_AME < 1.1% (at 28.4 GHz), Pi_AME < 1.1% (at 22.8 GHz) and Pi_AME < 0.28% (at 33 GHz) in rho-Ophiuchi, Perseus and W43 respectively. At the QUIJOTE 17 GHz frequency band, we get Pi_AME< 5.1% for rho-Ophiuchi, Pi_AME< 3.5% for Perseus and Pi_AME< 0.85% for W43. Our final upper limits derived using the stacking procedure are Pi_AME < 0.58% for rho-Ophiuchi, Pi_AME < 1.64% for Perseus and Pi_AME < 0.31% for W43. Altogether, these are the most stringent constraints to date on the AME polarization fraction of these three star-forming regions.

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arXiv - PHYS - Cosmology and Nongalactic Astrophysics

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