MIGHTEE 偏振早期科学领域:深极化天空

IF 4.7 3区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
A R Taylor, S Sekhar, L Heino, A M M Scaife, J Stil, M Bowles, M Jarvis, I Heywood, J D Collier
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引用次数: 0

摘要

MeerKAT International GigaHertz Tiered Extragalactic Exploration (MIGHTEE) 是 MeerKAT 大型勘测项目之一,旨在为 SKA 关键科学探路。MIGHTEE 正在对四个观测良好的区域(COSMOS、XMM-LSS、ELAIS S1 和 CDFS)进行深度射电成像,总面积达 20 平方度,灵敏度为 μJy。880-1690 MHz 之间的宽带成像观测产生了总强度连续波、光谱极坐标和原子氢光谱成像。COSMOS 和 XMM-LSS 的初步观测正在发布 MIGHTEE 的早期科学数据。本文介绍了光谱偏振观测、MIGHTEE 早期科学领域的偏振数据处理,并展示了偏振数据图像和星表。目录包括 13,267 个总强度射电源的射电光谱指数、红移信息和法拉第旋转测量合成结果,偏振强度探测极限为 ∼20 μJy bm-1。从 324 个射电源中探测到了偏振信号。对于偏振探测,我们包括了法拉第合成和 Q、U 拟合的法拉第深度目录,以及总强度和偏振光谱指数。总射电源和探测到的偏振源的红移分布相同,中位红移分别为 0.86 和 0.82。随着总强度光谱指数的降低,长波发射的去极化现象也在增加,这意味着去极化是射电源的固有特性。没有证据表明法拉第深度的方差与红移有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MIGHTEE polarization early science fields: The deep polarized sky
The MeerKAT International GigaHertz Tiered Extragalactic Exploration (MIGHTEE) is one of the MeerKAT large survey projects, designed to pathfind SKA key science. MIGHTEE is undertaking deep radio imaging of four well observed fields (COSMOS, XMM-LSS, ELAIS S1 and CDFS) totaling 20 square degrees to μJy sensitivities. Broadband imaging observations between 880–1690 MHz yield total intensity continuum, spectro-polarimetry, and atomic hydrogen spectral imaging. Early science data from MIGHTEE are being released from initial observations of COSMOS and XMM-LSS. This paper describes the spectro-polarimetric observations, the polarization data processing of the MIGHTEE early science fields, and presents polarization data images and catalogues. The catalogues include radio spectral index, redshift information and Faraday rotation measure synthesis results for 13,267 total intensity radio sources down to a polarized intensity detection limit of ∼20 μJy bm−1. Polarized signals were detected from 324 sources. For the polarized detections we include a catalogue of Faraday Depth from both Faraday Synthesis and Q, U fitting, as well as total intensity and polarization spectral indices. The distribution of redshift of the total radio sources and detected polarized sources are the same, with median redshifts of 0.86 and 0.82 respectively. Depolarization of the emission at longer-wavelengths is seen to increase with decreasing total-intensity spectral index, implying that depolarisation is intrinsic to the radio sources. No evidence is seen for a redshift dependence of the variance of Faraday Depth.
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来源期刊
CiteScore
9.10
自引率
37.50%
发文量
3198
审稿时长
3 months
期刊介绍: Monthly Notices of the Royal Astronomical Society is one of the world''s leading primary research journals in astronomy and astrophysics, as well as one of the longest established. It publishes the results of original research in positional and dynamical astronomy, astrophysics, radio astronomy, cosmology, space research and the design of astronomical instruments.
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