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First-generation science cases for ground-based terahertz telescopes

Authors :
Hirashita, Hiroyuki
Koch, Patrick M.
Matsushita, Satoki
Takakuwa, Shigehisa
Nakamura, Masanori
Asada, Keiichi
Liu, Hauyu Baobab
Urata, Yuji
Wang, Ming-Jye
Wang, Wei-Hao
Takahashi, Satoko
Tang, Ya-Wen
Chang, Hsian-Hong
Huang, Kuiyun
Morata, Oscar
Otsuka, Masaaki
Lin, Kai-Yang
Tsai, An-Li
Lin, Yen-Ting
Srinivasan, Sundar
Martin-Cocher, Pierre
Pu, Hung-Yi
Kemper, Francisca
Patel, Nimesh
Grimes, Paul
Huang, Yau-De
Han, Chih-Chiang
Huang, Yen-Ru
Nishioka, Hiroaki
Lin, Lupin Chun-Che
Zhang, Qizhou
Keto, Eric
Burgos, Roberto
Chen, Ming-Tang
Inoue, Makoto
Ho, Paul T. P.
Source :
Publications of the Astronomical Society of Japan; February 2016, Vol. 68 Issue: 1
Publication Year :
2016

Abstract

Ground-based observations at terahertz (THz) frequencies are a newly explorable area of astronomy in the coming decades. We discuss science cases for a first-generation 10-m class THz telescope, focusing on the Greenland Telescope as an example of such a facility. We propose science cases and provide quantitative estimates for each case. The largest advantage of ground-based THz telescopes is their higher angular resolution (∼ 4″ for a 10-m dish), as compared to space or airborne THz telescopes. Thus, high-resolution mapping is an important scientific argument. In particular, we can isolate zones of interest for Galactic and extragalactic star-forming regions. The THz windows are suitable for observations of high-excitation CO lines and [N ii] 205-μm lines, which are scientifically relevant tracers of star formation and stellar feedback. Those lines are the brightest lines in the THz windows, so they are suitable for the initiation of ground-based THz observations. THz polarization of star-forming regions can also be explored since it traces the dust population contributing to the THz spectral peak. For survey-type observations, we focus on “sub-THz” extragalactic surveys, the uniqueness of which is detecting galaxies at redshifts z∼ 1–2, where the dust emission per comoving volume is the largest in the history of the Universe. Finally we explore possibilities of flexible time scheduling, which enables us to monitor active galactic nuclei, and to target gamma-ray burst afterglows. For these objects, THz and submillimeter wavelength ranges have not yet been explored.

Details

Language :
English
ISSN :
00046264 and 2053051X
Volume :
68
Issue :
1
Database :
Supplemental Index
Journal :
Publications of the Astronomical Society of Japan
Publication Type :
Periodical
Accession number :
ejs38340313
Full Text :
https://doi.org/10.1093/pasj/psv115