Atacama Large Aperture Submillimeter Telescope (AtLAST) science: Surveying the distant Universe.

Open research Europe Pub Date : 2024-06-24 eCollection Date: 2024-01-01 DOI:10.12688/openreseurope.17445.1
Eelco van Kampen, Tom Bakx, Carlos De Breuck, Chian-Chou Chen, Helmut Dannerbauer, Benjamin Magnelli, Francisco Miguel Montenegro-Montes, Teppei Okumura, Sy-Yin Pu, Matus Rybak, Amelie Saintonge, Claudia Cicone, Evanthia Hatziminaoglou, Juliëtte Hilhorst, Pamela Klaassen, Minju Lee, Christopher C Lovell, Andreas Lundgren, Luca Di Mascolo, Tony Mroczkowski, Laura Sommovigo, Mark Booth, Martin A Cordiner, Rob Ivison, Doug Johnstone, Daizhong Liu, Thomas J Maccarone, Matthew Smith, Alexander E Thelen, Sven Wedemeyer
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Abstract

During the most active period of star formation in galaxies, which occurs in the redshift range 1 < z < 3, strong bursts of star formation result in significant quantities of dust, which obscures new stars being formed as their UV/optical light is absorbed and then re-emitted in the infrared, which redshifts into the mm/sub-mm bands for these early times. To get a complete picture of the high- z galaxy population, we need to survey a large patch of the sky in the sub-mm with sufficient angular resolution to resolve all galaxies, but we also need the depth to fully sample their cosmic evolution, and therefore obtain their redshifts using direct mm spectroscopy with a very wide frequency coverage. This requires a large single-dish sub-mm telescope with fast mapping speeds at high sensitivity and angular resolution, a large bandwidth with good spectral resolution and multiplex spectroscopic capabilities. The proposed 50-m Atacama Large Aperture Submillimeter Telescope (AtLAST) will deliver these specifications. We discuss how AtLAST allows us to study the whole population of high-z galaxies, including the dusty star-forming ones which can only be detected and studied in the sub-mm, and obtain a wealth of information for each of these up to z ∼ 7: gas content, cooling budget, star formation rate, dust mass, and dust temperature. We present worked examples of surveys that AtLAST can perform, both deep and wide, and also focused on galaxies in proto-clusters. In addition we show how such surveys with AtLAST can measure the growth rate f σ 8 and the Hubble constant with high accuracy, and demonstrate the power of the line-intensity mapping method in the mm/sub-mm wavebands to constrain the cosmic expansion history at high redshifts, as good examples of what can uniquely be done by AtLAST in this research field.

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阿塔卡马大孔径亚毫米波望远镜(ATLAST)科学:勘测遥远的宇宙
在星系恒星形成最活跃的时期,也就是红移范围 1 < z 3 的时期,恒星形成的强烈爆发会产生大量的尘埃,这些尘埃会遮挡正在形成的新恒星,因为它们的紫外光/光学光会被吸收,然后重新发射到红外线中,在这些早期时期,红外线会红移到毫米/亚毫米波段。为了全面了解高z星系群的情况,我们需要用亚毫米波段对天空中的一大片区域进行观测,其角度分辨率要足以分辨出所有星系,但我们还需要有足够的深度来对它们的宇宙演化过程进行全面采样,因此需要使用频率覆盖范围非常广的直接毫米波段光谱来获得它们的红移。这就需要大型单碟亚毫米望远镜具有高灵敏度和高角度分辨率的快速制图速度、大带宽和良好的光谱分辨率以及复用光谱能力。拟建的 50 米阿塔卡马大孔径亚毫米波望远镜(ATLAST)将满足这些要求。我们将讨论 AtLAST 如何使我们能够研究整个高z星系群,包括只能在亚毫米波中探测和研究的尘埃状恒星形成星系,并获得其中每个星系直至 z∼7 的大量信息:气体含量、冷却预算、恒星形成率、尘埃质量和尘埃温度。我们介绍了ATLAST可以进行的勘测实例,既有深度勘测,也有广度勘测,而且还侧重于原星团中的星系。此外,我们还展示了利用AtLAST进行的此类巡天如何高精度地测量增长率f σ 8和哈勃常数,并演示了毫米/亚毫米波段线强度映射法在高红移下约束宇宙膨胀历史的威力,这些都是AtLAST在这一研究领域所能完成的独特工作的良好范例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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