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Alternative names | HEAT |
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Location(s) | Ridge A, Antarctic Treaty area |
Coordinates | 81°30′S 73°30′E / 81.5°S 73.5°E |
Organization |
University of Arizona University of New South Wales ![]() |
Altitude | 4,040 m (13,250 ft) |
Wavelength | 150 μm (2.0 THz)–600 μm (500 GHz) |
First light | January 2012
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Telescope style |
infrared telescope
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Diameter | 60 cm (2 ft 0 in) |
Website |
soral |
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The High Elevation Antarctic Terahertz telescope is a far-infrared telescope, established by the University of Arizona and the University of New South Wales located at Ridge A at an altitude of 4,053 metres (13,297 ft), considered the most ideal location for observation in the world. [1] The extraordinary low humidity makes Inner Antarctica the best (by far) region for submillimeter astronomy observations. [2] The telescope is robotic, remote controlled. It is mostly operated during the local winter, when the average temperature is −70 °C (−94 °F).
![]() | |
Alternative names | HEAT |
---|---|
Location(s) | Ridge A, Antarctic Treaty area |
Coordinates | 81°30′S 73°30′E / 81.5°S 73.5°E |
Organization |
University of Arizona University of New South Wales ![]() |
Altitude | 4,040 m (13,250 ft) |
Wavelength | 150 μm (2.0 THz)–600 μm (500 GHz) |
First light | January 2012
![]() |
Telescope style |
infrared telescope
![]() |
Diameter | 60 cm (2 ft 0 in) |
Website |
soral |
![]() | |
The High Elevation Antarctic Terahertz telescope is a far-infrared telescope, established by the University of Arizona and the University of New South Wales located at Ridge A at an altitude of 4,053 metres (13,297 ft), considered the most ideal location for observation in the world. [1] The extraordinary low humidity makes Inner Antarctica the best (by far) region for submillimeter astronomy observations. [2] The telescope is robotic, remote controlled. It is mostly operated during the local winter, when the average temperature is −70 °C (−94 °F).