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Book contents
- Frontmatter
- Contents
- Preface
- Part 1 Optical Observatories
- 1 Palomar Mountain Observatory
- 2 The United States Optical Observatory
- 3 From the Next Generation Telescope to Gemini and SOAR
- 4 Competing Primary Mirror Designs
- 5 Active Optics, Adaptive Optics and Other Technical Innovations
- 6 European Northern Observatory and Calar Alto
- 7 European Southern Observatory
- 8 Mauna Kea Observatory
- 9 Australian Optical Observatories
- 10 Mount Hopkins' Whipple Observatory and the MMT
- 11 Apache Point Observatory
- 12 Carnegie Southern Observatory (Las Campanas)
- 13 Mount Graham International Optical Observatory
- 14 Modern Optical Interferometers
- 15 Solar Observatories
- Part 2 Radio Observatories
- Name Index
- Optical/ Infrared Observatory and Telescope Index
- Radio Observatory and Telescope Index
- General Index
- References
13 - Mount Graham International Optical Observatory
from Part 1 - Optical Observatories
Published online by Cambridge University Press: 15 December 2016
- Frontmatter
- Contents
- Preface
- Part 1 Optical Observatories
- 1 Palomar Mountain Observatory
- 2 The United States Optical Observatory
- 3 From the Next Generation Telescope to Gemini and SOAR
- 4 Competing Primary Mirror Designs
- 5 Active Optics, Adaptive Optics and Other Technical Innovations
- 6 European Northern Observatory and Calar Alto
- 7 European Southern Observatory
- 8 Mauna Kea Observatory
- 9 Australian Optical Observatories
- 10 Mount Hopkins' Whipple Observatory and the MMT
- 11 Apache Point Observatory
- 12 Carnegie Southern Observatory (Las Campanas)
- 13 Mount Graham International Optical Observatory
- 14 Modern Optical Interferometers
- 15 Solar Observatories
- Part 2 Radio Observatories
- Name Index
- Optical/ Infrared Observatory and Telescope Index
- Radio Observatory and Telescope Index
- General Index
- References
Summary
Astronomers at the University of Arizona started planning in the early 1980s for an international observatory on the 10,700 ft (3,250 m) Mount Graham, the highest peak in the Pinaleno range, about 75 miles (120 km) from Tucson, Arizona. Mount Graham was chosen because of its low light pollution, low atmospheric water vapour, ease of access, and excellent seeing which was only a little worse than that on Mauna Kea. The planned telescopes included the 1.8 m Vatican Advanced Technology Telescope (VATT) of the Vatican Observatory, a submillimetre telescope (later called the Heinrich Hertz Submillimeter Telescope – see Section 23.6), and an optical-infrared binocular telescope, then called the Columbus Project, which consisted of two 8 m primary mirrors on a common mount.
For a time Mount Graham was also considered as a possible site for the National New Technology Telescope (NNTT, see Section 3.2). This was strongly advocated by the University of Arizona as they were hoping to supply its mirror. But Mauna Kea was eventually chosen in 1987 as its location after three years of site surveys, with Mount Graham as a backup.
Vatican Advanced Technology Telescope (VATT)
In the meantime the University of Arizona's Mirror Laboratory had spun-cast the 1.8 m, f/1.0 primary mirror blank for the VATT in 1985. In the same year construction work was also expected to begin on the VATT's new observatory building on Mount Graham, but environmental concerns over the mountain's red squirrels and its other sensitive habitats led to a series of delays.
The prospect of being able to build an astronomical observatory on Mount Graham received a major setback in June 1987 when the Mount Graham red squirrel was declared an endangered species. But it appeared as though the environmental impasse had been broken in October 1988 when university-sponsored legislation was passed by the United States Congress to allow the three planned telescopes to be built on the mountain without Forest Service approval. This legislation allowed the university to build four more telescopes, if the first three were found to have had a minimal impact on the red squirrel. But in March 1990, a Federal judge ordered a temporary halt to the observatory construction. Although this temporary injunction was overturned by the US Court of Appeals two months later, other potential legal problems had also arisen.
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- Observatories and Telescopes of Modern TimesGround-Based Optical and Radio Astronomy Facilities since 1945, pp. 238 - 243Publisher: Cambridge University PressPrint publication year: 2016