Measurement and Modeling of Polarized Atmosphere at the South Pole with SPT-3G

A. Coerver,J. A. Zebrowski, S. Takakura,W. L. Holzapfel, P. A. R. Ade, A. J. Anderson, Z. Ahmed,B. Ansarinejad,M. Archipley,L. Balkenhol, D. Barron, K. Benabed, A. N. Bender, B. A. Benson, F. Bianchini, L. E. Bleem, F. R. Bouchet, L. Bryant,E. Camphuis, J. E. Carlstrom,T. W. Cecil, C. L. Chang,P. Chaubal,P. M. Chichura,A. Chokshi,T. -L. Chou, T. M. Crawford,A. Cukierman, C. Daley, T. de Haan,K. R. Dibert, M. A. Dobbs,A. Doussot,D. Dutcher, W. Everett, C. Feng, K. R. Ferguson,K. Fichman, A. Foster, S. Galli,A. E. Gambrel, R. W. Gardner, F. Ge,N. Goeckner-Wald, R. Gualtieri, F. Guidi,S. Guns, N. W. Halverson, E. Hivon, G. P. Holder,J. C. Hood, A. Hryciuk, N. Huang,F. Keruzore, A. R. Khalife, L. Knox, M. Korman, K. Kornoelje, C. -L. Kuo,A. T. Lee,K. Levy,A. E. Lowitz, C. Lu,A. Maniyar, E. S. Martsen, F. Menanteau,M. Millea, J. Montgomery, Y. Nakato, T. Natoli,G. I. Noble, V. Novosad, Y. Omori, S. Padin, Z. Pan, P. Paschos,K. A. Phadke, A. W. Pollak, K. Prabhu, W. Quan, M. Rahimi,A. Rahlin, C. L. Reichardt,M. Rouble,J. E. Ruhl,E. Schiappucci, G. Smecher, J. A. Sobrin, A. A. Stark, J. Stephen, A. Suzuki,C. Tandoi, K. L. Thompson, B. Thorne,C. Trendafilova, C. Tucker, C. Umilta, J. D. Vieira, A. Vitrier, Y. Wan, G. Wang, N. Whitehorn, W. L. K. Wu, V. Yefremenko, M. R. Young

arxiv(2024)

引用 0|浏览11
暂无评分
摘要
We present the detection and characterization of fluctuations in linearly polarized emission from the atmosphere above the South Pole. These measurements make use of Austral winter survey data from the SPT-3G receiver on the South Pole Telescope in three frequency bands centered at 95, 150, and 220 GHz. We use the cross-correlation between detectors to produce an unbiased estimate of the power in Stokes I, Q, and U parameters on large angular scales. Our results are consistent with the polarized signal being produced by the combination of Rayleigh scattering of thermal radiation from the ground and thermal emission from a population of horizontally aligned ice crystals with an anisotropic distribution described by Kolmogorov turbulence. The signal is most significant at large angular scales, high observing frequency, and low elevation angle. Polarized atmospheric emission has the potential to significantly impact observations on the large angular scales being targeted by searches for inflationary B-mode CMB polarization. We present the distribution of measured angular power spectrum amplitudes in Stokes Q and I for 4 years of winter observations, which can be used to simulate the impact of atmospheric polarization and intensity fluctuations at the South Pole on a specified experiment and observation strategy. For the SPT-3G data, downweighting the small fraction of significantly contaminated observations is an effective mitigation strategy. In addition, we present a strategy for further improving sensitivity on large angular scales where maps made in the 220 GHz band are used to measure and subtract the polarized atmosphere signal from the 150 GHz band maps. In observations with the SPT-3G instrument at the South Pole, the polarized atmospheric signal is a well-understood and sub-dominant contribution to the measured noise after implementing the mitigation strategies described here.
更多
查看译文
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要