阿塔卡马大孔径亚毫米波望远镜(ATLAST)科学:隐藏的环银河介质

Open research Europe Pub Date : 2024-06-13 eCollection Date: 2024-01-01 DOI:10.12688/openreseurope.17452.1
Minju Lee, Alice Schimek, Claudia Cicone, Paola Andreani, Gergo Popping, Laura Sommovigo, Philip N Appleton, Manuela Bischetti, Sebastiano Cantalupo, Chian-Chou Chen, Helmut Dannerbauer, Carlos De Breuck, Luca Di Mascolo, Bjorn H C Emonts, Evanthia Hatziminaoglou, Antonio Pensabene, Francesca Rizzo, Matus Rybak, Sijing Shen, Andreas Lundgren, Mark Booth, Pamela Klaassen, Tony Mroczkowski, Martin A Cordiner, Doug Johnstone, Eelco van Kampen, Daizhong Liu, Thomas Maccarone, Amelie Saintonge, Matthew Smith, Alexander E Thelen, Sven Wedemeyer
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引用次数: 0

摘要

通过对所有宇宙纪元的星系星际介质(ISM)的多波长观测约束,我们对星系形成和演化的认识取得了令人难以置信的进展。然而,我们对更弥散、表面亮度更低的气体和尘埃库的物理性质却知之甚少,这些气体和尘埃库超越了星际介质的尺度,填充了星系的暗物质晕,直至星系的病毒半径,即星系周介质(CGM)。新的理论研究越来越强调后者对于理解整个宇宙时间内塑造星系的反馈和馈源机制的重要性,这些机制的累积效应在环银河介质中留下了清晰的印记。最近的研究表明,CGM质量的一部分--迄今为止尚未受到约束--可能存在于冷态(T < 10 4 K)分子和原子相中,尤其是在高红移致密环境中。通过明亮的远红外线和亚毫米波发射线,如[C ii] 158 µm、[O iii] 88 µm、[C I] 609 µm、[C i] 370 µm,以及 CO 的旋转转变,可以研究 z ∼ 0 到 z ∼ 10 的星系中的这些气体阶段,以及较热的电离阶段。对这种隐蔽的冷CGM进行成像可以在星系演化研究方面取得突破,但这需要一种新的设施,即拟议中的阿塔卡马大孔径亚毫米波望远镜(AtLAST)。在本文中,我们利用理论和经验论据来激励未来利用AtLAST进行CGM观测的雄心,并描述了望远镜及其仪器进行此类科学研究所需的技术要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Atacama Large Aperture Submillimeter Telescope (AtLAST) science: The hidden circumgalactic medium.

Our knowledge of galaxy formation and evolution has incredibly progressed through multi-wavelength observational constraints of the interstellar medium (ISM) of galaxies at all cosmic epochs. However, little is known about the physical properties of the more diffuse and lower surface brightness reservoir of gas and dust that extends beyond ISM scales and fills dark matter haloes of galaxies up to their virial radii, the circumgalactic medium (CGM). New theoretical studies increasingly stress the relevance of the latter for understanding the feedback and feeding mechanisms that shape galaxies across cosmic times, whose cumulative effects leave clear imprints into the CGM. Recent studies are showing that a - so far unconstrained - fraction of the CGM mass may reside in the cold ( T < 10 4 K) molecular and atomic phase, especially in high-redshift dense environments. These gas phases, together with the warmer ionised phase, can be studied in galaxies from z ∼ 0 to z ∼ 10 through bright far-infrared and sub-millimeter emission lines such as [C ii] 158 µm, [O iii] 88 µm, [C I] 609 µm, [C i] 370 µm, and the rotational transitions of CO. Imaging such hidden cold CGM can lead to a breakthrough in galaxy evolution studies but requires a new facility with the specifications of the proposed Atacama Large Aperture Submillimeter Telescope (AtLAST). In this paper, we use theoretical and empirical arguments to motivate future ambitious CGM observations with AtLAST and describe the technical requirements needed for the telescope and its instrumentation to perform such science.

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