SMILES 初始数据发布:用 MIRI 多波段成像揭开被遮蔽宇宙的神秘面纱

Stacey Alberts, Jianwei Lyu, 建伟 吕, Irene Shivaei, George H. Rieke, Pablo G. Pérez-González, Nina Bonaventura, Yongda Zhu, Jakob M. Helton, Zhiyuan Ji, Jane Morrison, Brant E. Robertson, Meredith A. Stone, Yang Sun, Christina C. Williams and Christopher N. A. Willmer
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摘要

詹姆斯-韦伯太空望远镜正在通过前所未有的红外灵敏度和分辨率彻底改变我们对宇宙的看法,其中一些最大的增益是在其最长的波长上实现的。我们介绍了系统中红外仪器(MIRI)遗产河外巡天(SMILES),这是一项在 GOODS-S/HUDF 区域进行的八波段 MIRI 巡天和近红外摄谱仪光谱跟踪。SMILES 充分利用了 MIRI 从 5.6 到 25.5 μm 的连续覆盖范围,覆盖了 ∼34 弧分2 的区域,极大地扩展了我们对遮蔽宇宙的了解,直至宇宙正午及更远。这项工作以及G. Rieke等人的相关论文涵盖了SMILES的科学驱动力和技术设计、SMILES的早期结果、数据缩减、光度目录创建和首次数据发布。作为早期成果讨论的一部分,我们还介绍了一个高层次的科学演示,说明 MIRI 的波长覆盖范围和分辨率将如何利用 3.3 到 18 μm 的全范围多环芳烃发射特征推进我们对宇宙尘埃的了解。利用定制的背景减法,我们对近红外成像进行了稳健的还原,最大限度地提高了我们适度曝光时间(每个滤光片 0.6-2.2 ks)所达到的深度。我们首次发布的数据包括:(1)深度为 0.2-18 μJy (5σ) 的八幅 MIRI 成像镶嵌图;(2)包含 3000 多个光源的 5-25.5 μm 测光星表。从 X 射线到射电,GOODS-S/HUDF 的光度和光谱覆盖范围十分广泛,在此基础上,SMILES 极大地扩展了我们对遮蔽宇宙的研究能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SMILES Initial Data Release: Unveiling the Obscured Universe with MIRI Multiband Imaging
The James Webb Space Telescope is revolutionizing our view of the Universe through unprecedented sensitivity and resolution in the infrared, with some of the largest gains realized at its longest wavelengths. We present the Systematic Mid-infrared Instrument (MIRI) Legacy Extragalactic Survey (SMILES), an eight-band MIRI survey with Near-Infrared Spectrograph spectroscopic follow-up in the GOODS-S/HUDF region. SMILES takes full advantage of MIRI’s continuous coverage from 5.6 to 25.5 μm over an ∼34 arcmin2 area to greatly expand our understanding of the obscured Universe up to cosmic noon and beyond. This work, together with a companion paper by G. Rieke et al., covers the SMILES science drivers and technical design, early results with SMILES, data reduction, photometric catalog creation, and the first data release. As part of the discussion on early results, we additionally present a high-level science demonstration on how MIRI’s wavelength coverage and resolution will advance our understanding of cosmic dust using the full range of polycyclic aromatic hydrocarbon emission features from 3.3 to 18 μm. Using custom background subtraction, we produce robust reductions of the MIRI imaging that maximize the depths reached with our modest exposure times (∼0.6−2.2 ks per filter). Included in our initial data release are (1) eight MIRI imaging mosaics reaching depths of 0.2−18 μJy (5σ) and (2) a 5−25.5 μm photometric catalog with over 3000 sources. Building upon the rich legacy of extensive photometric and spectroscopy coverage of GOODS-S/HUDF from the X-ray to the radio, SMILES greatly expands our investigative power in understanding the obscured Universe.
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