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Isaac Newton Telescope

Coordinates: 28°45′44″N 17°52′39″W / 28.7622°N 17.8775°W / 28.7622; -17.8775
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Isaac Newton Telescope
The INT dome by moonlight
Alternative namesIsaac Newton Telescope 2.5m Edit this at Wikidata
Part ofIsaac Newton Group of Telescopes
Roque de los Muchachos Observatory
Royal Observatory Edit this on Wikidata
Location(s)La Palma, Atlantic Ocean, international waters
Coordinates28°45′44″N 17°52′39″W / 28.7622°N 17.8775°W / 28.7622; -17.8775 Edit this at Wikidata
OrganizationIsaac Newton Group of Telescopes Edit this on Wikidata
Built1967–1984 (1967–1984) Edit this at Wikidata
Telescope styleCassegrain reflecting telescope
Newtonian telescope Edit this on Wikidata
Diameter2.54 m (8 ft 4 in) Edit this at Wikidata
Collecting area5 m2 (54 sq ft) Edit this at Wikidata
Focal length8.36 m (27 ft 5 in) Edit this at Wikidata
Mountingequatorial mount Edit this on Wikidata
Enclosurespherical dome Edit this on Wikidata
Websitewww.ing.iac.es/Astronomy/telescopes/int/index.html Edit this at Wikidata
Isaac Newton Telescope is located in Canary Islands
Isaac Newton Telescope
Location of Isaac Newton Telescope
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The Isaac Newton Telescope or INT is a 2.54 m (100 in) optical telescope run by the Isaac Newton Group of Telescopes at Roque de los Muchachos Observatory on La Palma in the Canary Islands since 1984.

Originally the INT was situated at Herstmonceux Castle in Sussex, England, which was the site of the Royal Greenwich Observatory after it moved away from Greenwich due to light pollution. It was inaugurated in 1967 by Queen Elizabeth II.[1]

Herstmonceux suffered from poor weather, and the advent of mass air travel made it plausible for UK astronomers to run an overseas observatory. In 1979, the INT was shipped to La Palma, where it has remained ever since. It saw its second first light in 1984, with a video camera.[2][3] A major change was the mirror was now made of the new type Zerodur glass, as compared to the old mirror's Pyrex glass.[4]

Until 2024, the main instruments were the Wide Field Camera (WFC) and Intermediate Dispersion Spectrograph (IDS). WFC is a four CCD photographic prime-focus instrument with a relatively large 0.56×0.56 square degree field of view, which was commissioned in 1997. IDS is a medium-low resolution optical spectrograph (R 550-9375).[5] As of mid 2024 the INT is undergoing upgrades in preparation for the installation of HARPS3,[6] after which it will be the main instrument.

The old site of the INT is now the Observatory Science Centre at Herstmonceux, and it is known for its distinctive greened copper dome and various science and astronomy activities.[7]

Summary Background up to 1979

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The INT dome at the former Royal Greenwich Observatory, Herstmonceux
Aerial view of the former Royal Greenwich Observatory, Herstmonceux. The INT dome is the single dome to the right

The United States gifted a 98-inch mirror in 1949 to the United Kingdom.[8] (In a telescope this could establish the 3rd largest in the World, behind only the Hale and Hooker telescopes at that time). After ten years the mount was ordered for the telescope, and in 1959 construction began on what would be the INT, and it was completed by 1965; first light at Herstmonceux was conducted that year.[8]

The mirror was ground by Grubb in the 1950s, although until 1956, according to Observatories and Telescopes of Modern Times, there was some consideration for buying a new 74-inch from Grubb.[9] The Royal Greenwich Observatory completed its move to Herstmonceux in 1956.[9]

A short film was published in 1956 that featured the grinding of the 98-inch mirror blank for the Isaac Newton Telescope by Grubb Parsons.[10] (reflecting telescopes of this type need the glass blank ground into a precise shape, which can take years).

The telescope's first light (first, first light) occurred in 1965, and it was dedicated in 1967.[11][12]

On December 1, 1967, the Isaac Newton Telescope of the Royal Greenwich Observatory at Herstmonceux was inaugurated (dedicated) by Queen Elizabeth II.[13][14][12] One of the accomplishments with the telescope was the observations of Cygnus X-1.[14]

In the late 1960s, a concept was developed for a Northern Hemisphere Observatory, that culminated in the project for an international observatory in the Canary Islands;[12] Mauna Kea in Hawaii was also considered for the location.[15] Although the telescope was acquitting itself, the weather at the site less so. This eventually led to the plan to move the telescope to a new observatory, which would occur in the next decade and into the early 1980s.[12]

The 'last light' for the original Isaac Newton Telescope was in May 1979.[16] The new telescope for the island had so many new parts however, it was deemed possible in the mid-1980s to essentially fork the telescope design into two working telescopes with some rejuvenation. This would mean having another functioning telescope at Sussex; however, this project was terminated. One issue is that it would mean operating two telescopes, and the focus at that time had shifted to operating the new INT on the island. The old site would eventually be turned into a science museum with much of the old telescopes left as they were.[17]

The old observatory buildings remain by the Castle, and it is the site of the Herstmonceux Science Centre[18] (aka Observatory Science Centre at Herstmonceux).[7]

The former Royal Greenwich Observatory at Herstmonceux, the first light for the 98-inch mirror version of the INT

Technical detail since 1984

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The La Palma INT is a Cassegrain telescope, with a 2.54 m (100 in) diameter primary mirror and a focal length of 8.36 m (329 in). The mirror weighs 4361 kg (9614 lb), and is supported by a polar disc/fork type equatorial mounting. The total weight of the telescope is around 90 tons. The f/3.29 Prime focus, used with the WFC, allows an unvignetted field of view of 40 arcminutes (approximately 0.3 square degrees). There is also a secondary focal station, the f/15 Cassegrain focus, which possesses a 20 arcminute field of view and is the mount point for the IDS. The telescope's second first light was done by video.[3]

The new 100 inch Zerodur-glass mirror arrived at La Palma in December 1982.[4]

The pointing accuracy of the telescope is around 5 arcseconds, but a sophisticated autoguider, which tracks a given guide star and makes small corrections to the telescope tracking, allows a guiding accuracy of better than an arcsecond on better than 20th magnitude guide stars in support of the typical 0.8–1.5 arcsec seeing at the INT.

Isaac Newton Telescope Mirror, with the primary mirror cover petals almost closed.

Contemporaries

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The Isaac Newton Telescope was a very large telescope for its day, and the largest in England. It was a little smaller in aperture than the 100-inch Hooker telescope in the United States, but much newer. It originally had a 98-inch mirror when in England, but was given a new, larger 100-inch mirror by Grubb Parsons after the move.[19][20]

1967

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The INT was inaugurated by Queen Elizabeth II in 1967. The largest optical telescopes in 1967 included:

# Name /
Observatory
Image Aperture Altitude First
Light
1 5m Hale Telescope
Palomar Obs.
200″
508 cm
1713 m
(5620 ft)
1949
2 C. Donald Shane telescope
Lick Observatory
120″
305 cm
1283 m
(4209 ft)
1959
3 Shajn 2.6m (Crimean 102 in.)
Crimean Astrophysical Obs.
102″
260 cm
600 m
(1969 ft) [21]
1961
4 Hooker Telescope
Mount Wilson Obs.
100″
254 cm
1742 m
(5715 ft)
1917
5 Isaac Newton Telescope
Royal Greenwich Obs. (1967-1979)
98″
249 cm
1965 [2]
6 KPNO 2.1 m Telescope
Kitt Peak National Obs.
83″
211 cm
2,070 m
6791 ft
1964
7 Otto Struve Telescope
McDonald Obs.
82″
208 cm
2070 m
(6791 ft)
1939

1984

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INT began its new life atop the Spanish island of La Palma in the Canary Islands in 1984, with a new mirror and dome. Large visible-light optical ground telescopes in 1984 included:

Name /
Observatory
Image Aperture M1
Area
Altitude First
Light
n BTA-6
Special Astrophysical Obs
238″
605 cm
26 m2 2070 m
(6791 ft)
1975
n Hale Telescope
Palomar Obs.
200″
508 cm
20 m2 1713 m
(5620 ft)
1949
n Multiple Mirror Telescope
Fred Lawrence Whipple Obs.
1.8 m x 6
6+ or 4.7 m
m2 2617 m
(8585 ft)
1979
n Mayall Telescope
Kitt Peak National Obs.
158″
401 cm
10 m2 2120 m
(6955 ft)
1973
s CTIO 4m/Blanco
CTIO Obs.
158″
401 cm
10 m2 2200 m
(7217 ft)
1976
s Anglo-Australian Telescope
Siding Spring Obs.
153″
389 cm
m2 1742 m
(5715 ft)
1974
n CFH telescope
Mauna Kea Obs.
141″
358 cm
m2 4205 m
(13,800 ft)
1979
s ESO 3.6 m Telescope
ESO La Silla Obs.
140″
357 cm
8.8 m2 2400 m
(7874 ft)
1977
n MPI-CAHA 3.5m
Calar Alto Obs.
138″
350 cm
9 m2
[22]
2168 m
(7,113 ft)
1984
n Shane Telescope
Lick Observatory
120″
305 cm
m2 1283 m
(4209 ft)
1959
n Harlan J. Smith Telescope
McDonald Observatory
107″
270 cm
2070 m
(6791 ft)
1968
n Shajn 2.6m (Crimean 102 in.)
Crimean Astrophysical Obs.
102″
260 cm
600 m
(1969 ft) [21]
1961
n BAO 2.6 telescope
Byurakan Astrophysical Obs.
102″
260 cm
1500 m
(5000 ft)
1976
n Isaac Newton Telescope
ORM Obs. (1980–Present)
100″
254 cm
2396 m
(7,860 ft)
1984 [2]
s du Pont telescope
Las Campanas Obs.
100″
254 cm
2380 m
(7841 ft)
1976
n Hooker Telescope
Mount Wilson Obs.
100″
254 cm
1742 m
(5715 ft)
1917

HARPS3

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The High Accuracy Radial velocity Planet Searcher 3 (HARPS3) is a high resolution Echelle-type spectrograph that will be installed onto the telescope and aims to start observations in 2024.[23] It is being built as part of the Terra Hunting Experiment - a future 10 year radial velocity measurement program to discover Earth-like exoplanets.[24][obsolete source][25] It has a goal to achieve 10 cm/s radial velocity precision.[26]

See also

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References

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  1. ^ Smith, F. Graham; Dudley, J. (1982). "The Isaac Newton Telescope". Journal for the History of Astronomy. 12 (1): 1–18. Bibcode:1982JHA....13....1S. doi:10.1177/002182868201300101. S2CID 116989341. Retrieved 18 February 2016.
  2. ^ a b c "Chronology of the Isaac Newton Group of Telescopes".
  3. ^ a b Reed Business Information (February 16, 1984). New Scientist. Reed Business Information. p. 16. {{cite book}}: |author= has generic name (help)
  4. ^ a b Porter, John Guy; Moore, Patrick (1984). Yearbook of Astronomy. W. W. Norton. ISBN 9780393301472.
  5. ^ "Gratings". www.ing.iac.es. Retrieved 2024-08-25.
  6. ^ "ING Instrumentation Update 2024 - 2025". www.ing.iac.es. Retrieved 2024-08-25.
  7. ^ a b Treadwell, Timothy (2017-03-29). Astronomy Adventures and Vacations: How to Get the Most Out of Astronomy in Your Leisure Time. Springer. ISBN 9783319500027.
  8. ^ a b "History of Isaac Newton Telescope". www.ing.iac.es. Retrieved 2019-10-17.
  9. ^ a b Leverington, David (2017). Observatories and Telescopes of Modern Times. Cambridge University Press. ISBN 9780521899932.
  10. ^ "GRINDING A 98" MIRROR FOR THE ISAAC NEWTON TELESCOPE | Yorkshire Film Archive". www.yorkshirefilmarchive.com. Archived from the original on 2019-10-17. Retrieved 2019-10-17.
  11. ^ HECK, Andre (2013-06-05). Organizations and Strategies in Astronomy. Springer Science & Business Media. ISBN 9781402025716.
  12. ^ a b c d Sheehan, William; Conselice, Christopher J. (2014-09-17). Galactic Encounters: Our Majestic and Evolving Star-System, From the Big Bang to Time's End. Springer. ISBN 9780387853475.
  13. ^ "History of Isaac Newton Telescope".
  14. ^ a b "50 years of the Isaac Newton Telescope". Sky At Night magazine. Retrieved 2019-10-17.
  15. ^ Jefferies, John (1977-07-29). "John Jefferies" (Oral history). Interviewed by Spencer Weart. American Institute of Physics. Retrieved 2023-01-26.
  16. ^ Journal for the History of Astronomy. Science History Publications. 1982.
  17. ^ Moore, Patrick (2012-12-06). Eyes on the Universe: The Story of the Telescope. Springer Science & Business Media. ISBN 9781447106272.
  18. ^ Perception. Pion Limited. 1998.
  19. ^ Macdonald, Lee T. (2012). "'A Large Chunk of Glass': The 98-inch Mirror of the Isaac Newton Telescope, 1945–1959". The Antiquarian Astronomer. 6. Society for the History of Astronomy: 59–73. Bibcode:2012AntAs...6...59M. Retrieved 6 November 2015.
  20. ^ McCrea, William Hunter (1975). Royal Greenwich Observatory : an Historical Review Issued on the Occasion of its Tercentenary. London: Her Majesty's Stationery Office. Bibcode:1975rgo..book.....M.
  21. ^ a b "Crimean Observatory: General Information". Archived from the original on 2011-07-20. Retrieved 2010-01-13.
  22. ^ CA 3.5 Specs
  23. ^ Jentink, Casper Farret; Mortier, Annelies; Snik, Frans; et al. (2022-07-11). "ABORAS: Polarimetric, 10cm/S RV observations of the Sun as a star". In Marshall, Heather K; Spyromilio, Jason; Usuda, Tomonori (eds.). Ground-based and Airborne Telescopes IX. Vol. 12182. p. 146. arXiv:2207.04804. Bibcode:2022SPIE12182E..31F. doi:10.1117/12.2627113. ISBN 9781510653450. S2CID 250425755.
  24. ^ "HARPS3 Aka RoboHARPS and the workhorse of the Terra Hunting Experiment". Terra Hunting Experiment. Retrieved 2022-07-12.
  25. ^ Hall, Richard D; Thompson, Samantha J; Handley, Will; et al. (2018-06-05). "On the Feasibility of Intense Radial Velocity Surveys for Earth-Twin Discoveries". Monthly Notices of the Royal Astronomical Society. 479 (3). Oxford University Press (OUP): 2968–2987. arXiv:1806.00518. doi:10.1093/mnras/sty1464.
  26. ^ Thompson, Samantha J.; Queloz, Didier; Baraffe, Isabelle; et al. (2016-08-09). "HARPS3 for a roboticized Isaac Newton Telescope". In Evans, Christopher J; Simard, Luc; Takami, Hideki (eds.). Ground-based and Airborne Instrumentation for Astronomy VI. Vol. 9908. SPIE. pp. 99086F. arXiv:1608.04611. doi:10.1117/12.2232111.
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