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
3 - From the Next Generation Telescope to Gemini and SOAR
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
Next Generation Telescope (NGT)
No sooner had the 200 inch (5.0 m) Palomar Telescope been completed in 1948, than some astronomers started to consider whether it would be possible to build an even larger instrument. One of the most determined was Aden Meinel who, in the early 1950s, produced the outline design of an optical reflector of about 500 inch (~12.5 m) diameter. In this the primary mirror was not to be made of one piece of glass, but of several hundred smaller mirrors. But he received little support for his ideas, particularly when the question of funding was raised. It was also not clear at that time whether it was feasible to build such a machine.
Twenty years later, the design of a very large telescope was readdressed by Leo Goldberg the director of KPNO. Telescope design had moved on since Meinel's work, and by 1974 the main building phase of telescopes at KPNO had been completed, leaving a number of talented engineers with relatively little to do.(1) So Goldberg asked these engineers to examine possible designs of an optical telescope with a collecting area equivalent to a 25 m (~1000 inch) diameter mirror.
KPNO's first design concept for this very large telescope, called PALANTIR or rotating shoe telescope, consisted of a 75 m long by 25 m wide segment of the primary mirror which could be rotated in azimuth. This primary was composed of hundreds of polished aluminium segments. The secondary mirror assembly, which included a 3 m secondary mirror, was mounted on the elevation axle, which was parallel to the shortest side of the primary. By moving about this axle, the secondary could view the sky from the zenith down to about 30° above the horizontal. The main advantage of this design, over a conventional one, was that the primary mirror could be rigidly held and did not suffer from variable gravitational forces as the telescope looked at various parts of the sky.
Unfortunately, the proposed resolution of PALANTIR was rather poor, its secondary mirror could only see a fraction of its primary at any one time, and its capital cost of about $160 million was completely out of the question at that time.
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- Observatories and Telescopes of Modern TimesGround-Based Optical and Radio Astronomy Facilities since 1945, pp. 47 - 66Publisher: Cambridge University PressPrint publication year: 2016