Viper telescope
Observatory | Amundsen–Scott South Pole Station |
---|---|
Location(s) | Antarctic Treaty area, Antarctica |
Coordinates | 90°00′S 139°16′W / 90°S 139.27°WCoordinates: 90°00′S 139°16′W / 90°S 139.27°W |
Wavelength | 40 GHz (7.5 mm)[1] |
First light | 1998 [2] |
Decommissioned | November 2005 [2] |
Telescope style |
Cosmic microwave background experiment radio interferometer |
Diameter | 2 m (6 ft 7 in)[1] |
Location of Viper telescope | |
The Viper telescope is mainly used to view cosmic background radiation. The telescope is currently helping scientists prove or disprove the Big Crunch theory. The telescope is also one of the most powerful of its kind. Previous cosmic background telescopes were smaller and did not have the ability to focus on the detailed measurement of distant clouds that Viper does.
Location
The Viper telescope is located at the Center for Astrophysical Research, also known as (CARA) in the Amundsen-Scott station in Antarctica. The Viper project is run by many scientists; team leader Dr. Jeffrey Peterson is a Carnegie Mellon astrophysicist who currently works to view distant clouds in the universe.
Current uses
The Viper telescope is being used to image the anisotropy seen in the universe. Inflation theory states the glowing clouds of gas in the sky would be in the form of an arc about degree in the sky. The Viper telescope was able to confirm inflation theory, clearly showing the length of the arc was a degree. Recently the telescope was able to detect tiny fluctuations in the cosmic microwave background radiation. This can give astronomers vast information about the distribution of matter in the proto-Universe, such as how galaxies, stars, planets, and quasars formed from the free-floating protons and electrons that made up the primordial soup.
References
- 1 2 "The Viper Telescope : an Instrument to Measure Primary and Secondary CMB Anisotropy at Small Scales". Retrieved 29 June 2017.
- 1 2 "Goodbye to VIPER". Retrieved 29 June 2017.