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Orgov Radio-Optical Telescope

Coordinates: 40°21′03″N 44°14′27″E / 40.35089°N 44.24086°E / 40.35089; 44.24086
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Orgov Radio-Optical Telescope
Alternative namesRadio Optical Observatory ROT54 Edit this at Wikidata
Named afterParis Herouni, Orgov Edit this on Wikidata
Location(s)Orgov, Aragatsotn Province, Armenia
Coordinates40°21′03″N 44°14′27″E / 40.35089°N 44.24086°E / 40.35089; 44.24086 Edit this at Wikidata
Altitude1,711 m (5,614 ft) Edit this at Wikidata
Built1975–1985 (1975–1985) Edit this at Wikidata
First light1986 Edit this on Wikidata
Telescope styleoptical telescope
radio telescope Edit this on Wikidata
Diameter54 m (177 ft 2 in) Edit this at Wikidata
Secondary diameter5 m (16 ft 5 in) Edit this at Wikidata
Orgov Radio-Optical Telescope is located in Armenia
Orgov Radio-Optical Telescope
Location of Orgov Radio-Optical Telescope
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The Orgov Radio-Optical Telescope, also known as ROT54 or the Herouni Mirror Radio Telescope, is a radio telescope in Orgov, Armenia. It was built between 1975 and 1985 and was active between 1986 and 1990 before its use was halted. It was again operational until ceasing in 2012. Subsequently, many attempts have been made to restore and restart the ROT54.

It was registered as a historical and culturally significant Armenian monument in 2002 (monument N: 2.114.19.11.). [citation needed]

Specifications

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The telescope is located at the RRI Aragats Scientific Centre in Orgov, Armenia. It is on Mount Aragats,[1] at a height of 1,711 metres (5,614 ft).[2]

The radio telescope has a diameter of 54 m (177 ft). It is hemispherical, and fixed to the ground, with a movable secondary mirror with a diameter of 5 m (16 ft).[1] This provides a useful diameter of 32 m (105 ft). It has a surface accuracy around 70/100 μm, giving an operating wavelength of 30-3mm (10-100 GHz),[3] and was originally designed to observe down to 1 mm (300 GHz).[1]

The optical telescope has a 2.6 m (8.5 ft) mirror, with a 10 m (33 ft) focal length.[1]

History

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Development

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In 1964, Paris Herouni proposed the concept to Sergei Korolev. Korolev approved the project and, after various delays, work began in 1975.[1] Active construction took place between 1981 and 1985.[citation needed]

Demolitions were set on the slope of Mount Aragats, to create a pit for the dish. Subsequently, concrete was poured into the pit, and 3600 flat metal panels were "walled up" in the pit, attached to iron pipes, to form the telescope's mirror. On average, each panel is one square meter in size. The panels were made of high-strength alloys of aluminum with copper, magnesium, and manganese. Of particular technical difficulty was the polishing of the panels. A very uniform surface is needed to receive radio waves in the millimeter and sub-millimeter ranges. Each panel was hand-molded and precision-finished to within 70 microns.

The telescope became operational in 1986.[3] In the same year, Heruni received patent number 1377941 for “Mirror Radio Telescope Heruni”. The remaining infrastructure was completed in 1987.

Operations and observations

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The observatory was active between 1987 and 1990.[2] An explosion of the red giant (the twin star of the constellation Gemini) was recorded, numerous articles were published in scientific journals of the USSR and abroad, and reports were made at conferences.[citation needed]

The Telescope was subjected to, but not damaged, by the 1988 Armenian earthquake.[2]

Decommission and restoration attempts

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Telescope operations ceased around 1990. In the mid-1990s restoration of the telescope was proposed.[3] In 1995–2010, the telescope was modernized with new control computers and new feeds, and observations resumed, in collaboration with the Astronomical Society of Russia and the National Technical University of Athens.[2]

In 2012, ROT 54 / 2.6 operations ceased again, when a control arm failed, immobilizing the secondary mirror. The Armenian state could not cover the cost of repairs, and the research complex was mothballed. More than half the buildings at the GETSAI site were left vacant.[citation needed]

Future operation requires further upgrades to the control systems, comprehensive adjustments, replacement of outdated analog sensors with digital ones, and modernization of the data processing systems. According to experts,[who?] these upgrades will cost approximately $25 million.

In 2018–2019, a restoration project was prepared, to join the telescope to the European VLBI Network.[2] Implementation was planned to begin in 2019.[citation needed]

See also

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References

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  1. ^ a b c d e Herouni, Paris M. (2007). "Measured Parameters of Large Antenna of ROT-54/2.6 Tell about Absence of Big Bang" (PDF). National Academy of Sciences of Armenia Reports. 107: 73.
  2. ^ a b c d e Sargsyan, Arevik (4–5 October 2018). "Presentation of ROT-54/2.6" (PDF).
  3. ^ a b c Martin, J. M.; Rosolen, C. (October 1995). "Perspectives of the ROT 54/32/2.6 in astronomy". Astrophysics. 38 (4): 361–363. Bibcode:1995Ap.....38..361M. doi:10.1007/BF02044713. S2CID 124009116.

Further reading

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