"The HASHTAG Project: The First Submillimeter Images of the Andromeda G" by Matthew W.L. Smith, Stephen A. Eales et al.

Physics and Astronomy Publications

Title

The HASHTAG Project: The First Submillimeter Images of the Andromeda Galaxy from the Ground

Authors

Matthew W.L. Smith, Cardiff University
Stephen A. Eales, Cardiff University
Thomas G. Williams, Max Planck Institute for Astronomy
Bumhyun Lee, Peking University
Zongnan Li, Nanjing University
Pauline Barmby, The University of Western OntarioFollow
Martin Bureau, University of Oxford
Scott Chapman, Dalhousie University
Brian S. Cho, Seoul National University
Aeree Chung, Yonsei University
Eun Jung Chung, Chungnam National University
Hui Hsuan Chung, National Tsing Hua University
Christopher J.R. Clark, Space Telescope Science Institute
David L. Clements, Imperial College London
Timothy A. Davis, Cardiff University
Ilse De Looze, Universiteit Gent
David J. Eden, Liverpool John Moores University
Gayathri Athikkat-Eknath, Cardiff University
George P. Ford, Cardiff University
Yu Gao, Xiamen University
Walter Gear, National University of Ireland Galway
Haley L. Gomez, Cardiff University
Richard De Grijs, Macquarie University
Jinhua He, National Astronomical Observatories Chinese Academy of Sciences
Luis C. Ho, Peking University
Thomas M. Hughes, National Astronomical Observatories Chinese Academy of Sciences
Sihan Jiao, National Astronomical Observatories Chinese Academy of Sciences
Zhiyuan Li, Nanjing University
Francisca Kemper, European Southern Observatory

Document Type

Article

Publication Date

12-1-2021

Journal

Astrophysical Journal, Supplement Series

Volume

257

Issue

URL with Digital Object Identifier

10.3847/1538-4365/ac23d0

Abstract

Observing nearby galaxies with submillimeter telescopes on the ground has two major challenges. First, the brightness is significantly reduced at long submillimeter wavelengths compared to the brightness at the peak of the dust emission. Second, it is necessary to use a high-pass spatial filter to remove atmospheric noise on large angular scales, which has the unwelcome side effect of also removing the galaxy's large-scale structure. We have developed a technique for producing high-resolution submillimeter images of galaxies of large angular size by using the telescope on the ground to determine the small-scale structure (the large Fourier components) and a space telescope (Herschel or Planck) to determine the large-scale structure (the small Fourier components). Using this technique, we are carrying out the HARP and SCUBA-2 High Resolution Terahertz Andromeda Galaxy Survey (HASHTAG), an international Large Program on the James Clerk Maxwell Telescope, with one aim being to produce the first high-fidelity high-resolution submillimeter images of Andromeda. In this paper, we describe the survey, the method we have developed for combining the space-based and ground-based data, and we present the first HASHTAG images of Andromeda at 450 and 850 μm. We also have created a method to predict the CO(J = 3-2) line flux across M31, which contaminates the 850 μm band. We find that while normally the contamination is below our sensitivity limit, it can be significant (up to 28%) in a few of the brightest regions of the 10 kpc ring. We therefore also provide images with the predicted line emission removed.