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Submillimeter Astronomy from the South Pole (AST/RO)

Published online by Cambridge University Press:  30 January 2013

Antony A. Stark
Antony A. Stark*
Affiliation:
Smithsonian Astrophysical Observatory, 60 Garden Street, Cambridge, MA, USA email: aas@cfa.harvard.edu
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Abstract

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The Antarctic Submillimeter Telescope and Remote Observatory (AST/RO), a 1.7 m diameter offset Gregorian telescope for astronomy and aeronomy studies at wavelengths between 200 and 2000 μm, saw first light in 1995 and operated until 2005. It was the first radio telescope to operate continuously throughout the winter on the Antarctic Plateau. It served as a site testing instrument and prototype for later instruments, as well as executing a wide variety of scientific programs that resulted in six doctoral theses and more than one hundred scientific publications. The South Pole environment is unique among observatory sites for unusually low wind speeds, low absolute humidity, and the consistent clarity of the submillimeter sky. Especially significant are the exceptionally low values of sky noise found at this site, a result of the small water vapor content of the atmosphere. Multiple submillimeter-wave and Terahertz detector systems were in operation on AST/RO, including heterodyne and bolometric arrays. AST/RO's legacy includes comprehensive submillimeter-wave site testing of the South Pole, spectroscopic studies of 492 GHz and 809 GHz neutral atomic carbon and 460 GHz and 806 GHz carbon monoxide in the Milky Way and Magellanic Clouds, and the first detection of the 1.46 THz [N II] line from a ground-based observatory.

Keywords

surveyssite testingsubmillimeterGalaxy: kinematics and dynamicsISM: kinematics and dynamicsISM: moleculesISM: evolution
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 8 , Symposium S288: Astrophysics from Antarctica , August 2012 , pp. 146 - 153
Copyright
Copyright © International Astronomical Union 2013

References

Bally, J. 1989, in Astrophysics in Antarctica, ed. Mullan, D. J., Pomerantz, M. A., & Stanev, T. (New York: American Institute of Physics), 100Google Scholar
Binney, J., Gerhard, O. E., Stark, A. A., Bally, J., & Uchida, K. 1991, MNRAS, 252, 210Google Scholar
Bolatto, A. D., Jackson, J. M., Kraemer, K. E., & Zhang, X. 2000a, ApJ (Letters), 541, L17Google Scholar
Bolatto, A. D., Jackson, J. M., Israel, F. P., Zhang, X., & Kim, S. 2000b, ApJ, 545, 234Google Scholar
Bolatto, A. D, 2001, The Interstellar Medium in Low Metallicity Environments, Ph.D. Thesis, Boston UniversityGoogle Scholar
Bolatto, A. D., Israel, F. P., & Martin, C. L. 2005, ApJ, 633, 210Google Scholar
Bradford, C. M., Stacey, G. J., Swain, M. R., Nikola, T., Bolatto, A. D., Jackson, J. M., Savage, M. L., Davidson, J. A., & Ade, P. A. R. 2002, Appl. Opt., 41, 2561Google Scholar
Chamberlin, R. A. & Bally, J. 1994, Appl. Opt. 33, 1095CrossRefGoogle Scholar
Chamberlin, R. A. & Bally, J. 1995, Int. J. Infrared and Millimeter Waves, 16, 907Google Scholar
Chamberlin, R. A., Lane, A. P., & Stark, A. A. 1997, ApJ 476, 428CrossRefGoogle Scholar
Chamberlin, R. A. 2001, J. Geophys. Res.: Atmospheres, 106 (D17), 20101CrossRefGoogle Scholar
Dragovan, M., Stark, A. A., Pernick, R., & Pomerantz, M. 1990, Appl. Optics, 29, 463Google Scholar
Engargiola, G., Zmuidzinas, J., & Lo, K.-Y. 1994, Rev. Sci. Instr., 65, 1833CrossRefGoogle Scholar
Gerecht, E., Musante, C. F., Zhuang, Y., Yngvesson, K. S., Goyette, T., Dickinson, J., Waldman, J., Yagoubov, P. A., Gol'tsman, G. N., Voronov, B. M., & Gershenzon, E. M. 1999, IEEE Trans., MTT-47, 2519Google Scholar
Gerecht, E., Yngvesson, S., Nicholson, J., Zhuang, Y., Rodriguez-Morales, F., Zhao, X., Gu, D., Zannoni, R., Coulombe, M., Dickinson, J., Goyette, T., Gorveatt, W., Waldman, J., Khosropanah, P., Groppi, C., Hedden, A., Golish, D., Walker, C., Kooi, J., Chamberlin, R., Stark, A., Martin, C., Stupak, R., Tothill, N., & Lane, A. 2004, Deployment of TREND — A Low Noise Receiver User Instrument at 1.25 THz to 1.5 THz for AST/RO at the South Pole, Proceedings of the 14th International Symposium on Space Terahertz Technology, eds. C. Walker and J. Payne, pp. 179–188Google Scholar
Goff, J. A. & Gratch, S. 1946, Trans. Amer. Soc. Heat. and Vent. Eng., 52, 95Google Scholar
Groppi, C. E. 2003, Submillimeter Heterodyne Spectroscopy of Star Forming Regions, Ph.D. thesis, University of ArizonaGoogle Scholar
Groppi, C., Walker, C., Hungerford, A., Kulesa, C., Jacobs, K., & Kooi, J. 2000, in Imaging at Radio Through Submillimeter Wavelengths, ed. Mangum, J. G. & Radford, S. J. E., Vol. 217 (San Francisco: ASP Conference Series), 48Google Scholar
Groppi, C. E., Kulesa, C., Walker, C. K., & Martin, C. L. 2004 ApJ, 612, 946Google Scholar
Honingh, C. E., Hass, S., Hottgenroth, K., Jacobs, J., & Stutzki, J. 1997, IEEE Trans. Appl. Superconductivity, 7, 2582CrossRefGoogle Scholar
Hsieh, H. H. 2000, 12CO J = 4 → 3 and CI 3P 13P 0Observations of a Selection of Interstellar Clouds Located Throughout the Galaxy, Senior Honors Thesis, Harvard University.Google Scholar
Huang, M., Bania, T. M., Bolatto, A., Chamberlin, R. A., Ingalls, J. G., Jackson, J. M., Lane, A. P., Stark, A. A., Wilson, R. W., & Wright, G. A. 1999 ApJ, 517, 282Google Scholar
Huang, M. 2001, Interstellar Carbon Under the Influence of Hii Regions, Ph.D. Thesis, Boston UniversityGoogle Scholar
Indermuehle, B. T., Burton, M., & Maddison, S. T. 2005, PASA, 22, 73CrossRefGoogle Scholar
Ingalls, J. G. 1999, Carbon Gas in High Galactic Latitude Molecular Clouds, Ph.D. Thesis, Boston University.Google Scholar
Ingalls, J. G., Bania, T. M., Lane, A. P., Rumitz, M., & Stark, A. A. 2000, ApJ, 535, 211Google Scholar
Kim, S., Martin, C. L., Stark, A. A., & Lane, A. P. 2002, ApJ, 580, 896Google Scholar
Kim, S., Walsh, W. M., & Xiao, K. 2004 ApJ, 616, 865Google Scholar
Kim, S., Walsh, W. M., Xiao, K., & Lane, A. P. 2005 AJ, 130, 1635CrossRefGoogle Scholar
Kim, S. 2006, PASP, 118, 94Google Scholar
Kim, S. & Narayanan, D. 2006 PASJ, 58, 753Google Scholar
Kulesa, C. A. 2002, Molecular Hydrogen and Its Ions in Dark Interstellar Clouds and Star-Forming Regions, Ph.D. Thesis, University of ArizonaGoogle Scholar
Kulesa, C., Hungerford, A., Walker, C. K., Zhang, X., & Lane, A. P. 2005 ApJ, 625, 194Google Scholar
Lay, O. P. & Halverson, N. W. 2000 ApJ, 543, 787Google Scholar
Löhr, A., Bourke, T. L., Lane, A. P., Myers, P. C., Parshley, S. C., Stark, A. A., & Tothill, N. F. H. 2007 ApJ (Suppl. Series), 171, 478Google Scholar
Martin, C. L., Walsh, W. M., Xiao, K., Lane, A. P., Walker, C. K., & Stark, A. A. 2004, ApJ (Suppl. Series), 150, 239Google Scholar
Meinhold, P. & Lubin, P. 1991, ApJ (Letters), 370, L11Google Scholar
Novak, G. & Landsberg, R. H. 1998 Astrophysics from Antarctica ASP Conference Series Vol. 141Google Scholar
Oberst, T. E., Parshley, S. C., Stacey, G. J., Nikola, T., Löhr, A., Harnett, J. I., Tothill, N. F. H., Lane, A. P., Stark, A. A., & Tucker, C. E. 2006 ApJ (Letters), 652, L125Google Scholar
Oberst, T. E., Parshley, S. C., Nikola, T., Stacey, G. J., Löhr, A., Lane, A. P., Stark, A. A., & Kamenetzky, J. 2011 ApJ, 739, 100Google Scholar
Ojha, R., Stark, A. A., Hsieh, H. H., Lane, A. P., Chamberlin, R. A., Bania, T. M., Bolatto, A. D., Jackson, J. M., & Wright, G. A. 2001 ApJ, 548, 253Google Scholar
Pajot, F., Gispert, R., Lamarre, J. M., Peyturaux, R., Pomerantz, M. A., Puget, J.-L., Serra, G., Maurel, C., Pfeiffer, R., & Renault, J. C. 1989, A&A, 223, 107Google Scholar
Schwerdtfeger, W. 1984, Weather and Climate of the Antarctic (Amsterdam: Elsevier)Google Scholar
Schieder, R., Tolls, V., & Winnewisser, G. 1989, Exp. Astron., 1, 101Google Scholar
Staguhn, J. 1996, Observations Towards the Sgr C Region Near the Center of Our Galaxy, Ph.D. Thesis, University of CologneGoogle Scholar
Staguhn, J., Stutzki, J., Chamberlin, R. A., Balm, S. P., Stark, A. A., Lane, A. P., Schieder, R., & Winnewisser, G. 1997, ApJ, 491, 191Google Scholar
Stark, A. A., Chamberlin, R. A., Ingalls, J., Cheng, J., & Wright, G. 1997a Rev. Sci. Instr., 68, 2200Google Scholar
Stark, A. A., Bolatto, A. D., Chamberlin, R. A., Lane, A. P., Bania, T. M., Jackson, J. M. and Lo, K.-Y. 1997b ApJ (Letters), 480, L59Google Scholar
Stark, A. A., Bally, J., Balm, S. P., Bania, T. M., Bolatto, A. D., Chamberlin, R. A., Engargiola, G., Huang, M., Ingalls, J. G., Jacobs, K., Jackson, J. M., Kooi, J. W., Lane, A. P., Lo, K.-Y., Marks, R. D., Martin, C. L., Mumma, D., Ojha, R., Staguhn, J., Stutzki, J., Walker, C. K., Wilson, R. W., Wright, G. A., Zhang, X., Zimmermann, P., & Zimmermann, R. 2001, PASP, 113, 567Google Scholar
Stark, A. A., Martin, C. L., Walsh, W. M., Xiao, K., & Lane, A. P., Walker, C. K. 2004, ApJ (Letters), 614, L41Google Scholar
Swain, M. R., Bradford, C. M., Stacey, G. J., et al. 1998, Proc. SPIE 3354, 480.CrossRefGoogle Scholar
Tieftrunk, A. R., Jacobs, K., Martin, C. L., Seibertz, O., Stark, A. A., Stutzki, J., Walker, C. K., & Wright, G. A. 2001 A & A 375 L23.Google Scholar
Tothill, N. F. H., Löhr, A., Parshley, S. C., Stark, A. A., Lane, A. P., Harnett, J. I., wright, G. A., Walker, C. K., Bourke, T. L., & Myers, P. C. 2009 ApJ (Supplement), 185, 98Google Scholar
Townes, C. H. & Melnick, G. 1990 PASP, 102 357Google Scholar
Tucker, G. S., Griffin, G. S., Nguyen, H. T., & Peterson, J. B. 1993, ApJ (Letters), 419, L45Google Scholar
Walker, C. K., Kooi, J. W., Chan, W., LeDuc, H. G., Schaffer, P. L., Carlstrom, J. E., & Phillips, T. G. 1992, Int. J. Infrared and Millimeter Waves, 13, 785Google Scholar
Walsh, W. & Xiao, K. 2005, Highlights of Astronomy, 13, 965Google Scholar
Waters, J. W. 1976, in Methods of Experimental Physics: Astrophysics: Part B: Radio Telescopes, ed. Meeks, M. L., Vol. 12 (New York: Academic Press), 142Google Scholar
Yngvesson, K. S., Nicholson, J., Zhuang, Y., Zhao, X., Gu, D., Zannoni, R., Gerecht, E., Coulombe, M., Dickinson, J., Goyette, T., Waldman, J., Walker, C. K., Stark, A. A., & Lane, A. P. 2002, Progress on TREND - A Low Noise Receiver User Instrument at 1.25 THz to 1.5 THz for AST/RO at the South Pole, in Proceedings of the 13th Intern. Symp. on Space THz Technology, eds. Blundell, R. and Tong, E., E., (Harvard Univ., Cambridge, MA), 26-28 Mar. 2002, p. 461Google Scholar
Zhang, X., Lee, Y., Bolatto, A. D., & Stark, A. A. 2001, ApJ, 553, 274Google Scholar
Zmuidzinas, J. & LeDuc, H. G. 1992, IEEE Trans. Microwave Theory Tech., 40, 1797Google Scholar