Atacama Large Aperture Submillimeter Telescope (AtLAST) science: Our Galaxy

Creators: Klaassen, Pamela (Corresponding)¹; Traficante, Alessio²; Beltrán, Maria³; Pattle, Kate⁴; Booth, Mark¹; Lovell, Joshua⁵; Marshall, Jonathan⁶; Hacar, Alvaro^{7, 8}; Gaches, Brandt⁹; Bot, Caroline¹⁰; Peretto, Nicolas¹¹; Stanke, Thomas¹²; Arzoumanian, Doris¹³; Duarte Cabral, Ana¹¹; Duchêne, Gaspard^{14, 15}; Eden, David¹⁶; Hales, Antonio¹⁷; Kauffmann, Jens¹⁸; Luppe, Patricia^{19, 20}; Marino, Sebastian²¹; Redaelli, Elena¹²; Rigby, Andrew²²; Sánchez-Monge, Álvaro²³; Schisano, Eugenio²; Semenov, Dmitry²⁴; Spezzano, Silvia¹²; Thompson, Mark²²; Wyrowski, Friedrich²⁵; Cicone, Claudia²⁶; Mroczkowski, Tony²⁷; Cordiner, Martin²⁸; Di Mascolo, Luca^{29, 30, 31, 32}; Johnstone, Doug^{33, 34}; van Kampen, Eelco²⁷; Lee, Minju^{35, 36}; Liu, Daizhong^{12, 37}; Maccarone, Thomas³⁸; Saintonge, Amélie^{4, 25}; Smith, Matthew¹¹; Thelen, Alexander³⁹; Wedemeyer, Sven²⁶

1. UK Astronomy Technology Centre
2. IAPS-INAF, Rome, I-00133, Italy
3. Arcetri Astrophysical Observatory
4. University College London
5. Harvard-Smithsonian Center for Astrophysics
6. Institute of Astronomy and Astrophysics, Academia Sinica
7. University of Vienna
8. Leiden University
9. Chalmers University of Technology
10. Observatory of Strasbourg
11. Cardiff University
12. Max Planck Institute for Extraterrestrial Physics
13. National Astronomical Observatory of Japan
14. Institut de Planétologie et d'Astrophysique de Grenoble
15. University of California, Berkeley
16. Armagh Observatory
17. National Radio Astronomy Observatory
18. Massachusetts Institute of Technology
19. Trinity College Dublin
20. Friedrich Schiller University Jena
21. University of Exeter
22. University of Leeds
23. Institut de Ciènces de l'Espai, Barcelona, E-08193, Spain
24. Max Planck Institute für Astronomie, Heidelberg, D-69117, Germany
25. Max Planck Institute for Radio Astronomy
26. University of Oslo
27. European Southern Observatory
28. Goddard Space Flight Center
29. Lagrange Laboratory
30. University of Trieste
31. Trieste Astronomical Observatory
32. Institute for Fundamental Physics of the Universe
33. Herzberg Institute of Astrophysics
34. University of Victoria
35. University of Copenhagen
36. Technical University of Denmark
37. Purple Mountain Observatory
38. Texas Tech University
39. California Institute of Technology

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Abstract

As we learn more about the multi-scale interstellar medium (ISM) of our Galaxy, we develop a greater understanding for the complex relationships between the large-scale diffuse gas and dust in Giant Molecular Clouds (GMCs), how it moves, how it is affected by the nearby massive stars, and which portions of those GMCs eventually collapse into star forming regions. The complex interactions of those gas, dust and stellar populations form what has come to be known as the ecology of our Galaxy. Because we are deeply embedded in the plane of our Galaxy, it takes up a significant fraction of the sky, with complex dust lanes scattered throughout the optically recognizable bands of the Milky Way. These bands become bright at (sub-)millimetre wavelengths, where we can study dust thermal emission and the chemical and kinematic signatures of the gas. To properly study such large-scale environments, requires deep, large area surveys that are not possible with current facilities. Moreover, where stars form, so too do planetary systems, growing from the dust and gas in circumstellar discs, to planets and planetesimal belts. Understanding the evolution of these belts requires deep imaging capable of studying belts around young stellar objects to Kuiper belt analogues around the nearest stars. Here we present a plan for observing the Galactic Plane and circumstellar environments to quantify the physical structure, the magnetic fields, the dynamics, chemistry, star formation, and planetary system evolution of the galaxy in which we live with AtLAST; a concept for a new, 50m single-dish sub-mm telescope with a large field of view which is the only type of facility that will allow us to observe our Galaxy deeply and widely enough to make a leap forward in our understanding of our local ecology.

Copyright and License

© 2025 Klaassen P et al. This is an open access work distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Funding

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No [951815] (Towards an Atacama Large Aperture Submillimeter Telescope [AtLAST]). K.P. is a Royal Society University Research Fellow, supported by grant number URF\R1\211322. S.M. is supported by a Royal Society University Research Fellowship (URF-R1-221669) J.B.L. acknowledges the Smithsonian Institute for funding via a Submillimeter Array (SMA) Fellowship. L.D.M. acknowledges support by the French government, through the UCAJ.E.D.I. Investments in the Future project managed by the National Research Agency (ANR) with the reference number ANR-15-IDEX-01. M.L. acknowledges support from the European Union’s Horizon Europe research and innovation programme under the Marie Skłodowska-Curie grant agreement No 101107795 (ECOology for Galaxies using ALMA archive and Legacy surveys [ECOGAL]. S.W. acknowledges support by the Research Council of Norway through the EMISSA project (project number 286853) and the Centres of Excellence scheme, project number 262622 (“Rosseland Centre for Solar Physics”).

The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Data Availability

No data are associated with this article.

Software References

The calculations used to derive integration times for this paper were done using the AtLAST sensitivity calculator (Klaassen, 2024), a deliverable of Horizon 2020 research project ‘Towards AtLAST’, and available from this link.

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