Paris Observatory

(Redirected from Meudon Observatory)

The Paris Observatory (French: Observatoire de Paris, pronounced [ɔbsɛʁvatwaʁ paʁi]), a research institution of the Paris Sciences et Lettres University, is the foremost astronomical observatory of France, and one of the largest astronomical centers in the world. Its historic building is on the Left Bank of the Seine in central Paris, but most of the staff work on a satellite campus in Meudon, a suburb southwest of Paris.

Paris Observatory - PSL
Alternative namesObservatoire de Paris Edit this at Wikidata
LocationFrance Edit this at Wikidata
Coordinates48°48′18″N 2°14′00″E / 48.8051°N 2.23337°E / 48.8051; 2.23337
Established1667 (1667)
Websitewww.observatoiredeparis.psl.eu Edit this at Wikidata
Telescopes
East Tower 38 cm (15 in)Equatorial refractor
Paris Observatory is located in France
Paris Observatory
Location of Paris Observatory - PSL
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Paris Observatory
A 1682 map shows adjustments to the coast of France

The Paris Observatory was founded in 1667.[1].Construction was completed by the early 1670s and coincided with a major push for increased science, and the founding of the Royal Academy of Sciences.[2][self-published source?] King Louis XIV's minister of finance organized a "scientific powerhouse" to increase understanding of astronomy, maritime navigation, and science in general.[2]

Through the centuries the Paris Observatory has continued in support of astronomical activities, and in the 21st century connects multiple sites and organizations, supporting astronomy and science, past and present.[3] [4]

Constitution

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Administratively, it is a grand établissement of the French Ministry of National Education, with a status close to that of a public university. Its missions include:[5]

  • Research in astronomy and astrophysics
  • Education (four graduate programs, Ph.D. studies)
  • Diffusion of knowledge to the public

It maintains a solar observatory at Meudon and a radio astronomy observatory at Nançay.[5] It was also the home to the International Time Bureau until its dissolution in 1987.[6] It remains the source of legal time in France,[7] using multiple atomic fountain clocks maintained by its SYRTE (Sytèmes de Référence Temps Espace) department.[8] The Paris Observatory Library, which was founded in 1785, provides the researchers with documentation and preserves the ancient books, archives, and heritage collections of the institution. Many collections are available online.[citation needed]

History

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The Paris Observatory at the beginning of the eighteenth century, with the wooden "Marly Tower" on the right, a remnant of the Machine de Marly moved to the grounds by Giovanni Cassini, for the mounting of long-tubed telescopes and even longer tubeless aerial telescopes.

The Paris Observatory was proposed in 1665–1666 by the French Academy of Sciences, which had recently been founded by the Minister of Finance Jean-Baptiste Colbert. In 1666, King Louis XIV authorized the building of the Observatory. On Midsummer's Day 1667, members of the Academy of Sciences traced the future building's outline on a plot outside town near the Port Royal abbey, with the Paris meridian exactly bisecting the site north–south.[9] The meridian line was used as a basis for navigation and would be used by French cartographers as their prime meridian for more than 200 years.

The Paris Observatory predates by a few years the Royal Greenwich Observatory in England, which was founded in 1675. The English philosopher John Locke visited the Paris Observatory on 28 August 1677, which he recorded in his journal: "At the Observatory we saw the Moon in a twenty-two foot glass, and Jupiter, with his satellites, in the same. The most remote was on the east, and the other three on the west. We also saw Saturn and his ring, in a twelve-foot glass, and one of his satellites. Monsieur Cassini told me, that the declination of the needle at Paris is about two and a half degrees to the west."[10]

The architect of the Paris Observatory was Claude Perrault whose brother, Charles, was secretary to Jean-Baptiste Colbert and superintendent of public works.[11] Optical instruments were supplied by Giuseppe Campani. Construction of the Observatory was completed in 1671, though the buildings were extended in 1730, 1810, 1834, 1850, and 1951.[12] The last extension incorporates the Meridian Room designed by Jean Prouvé.[13]

 
The Château-Neuf at Meudon in 1871, after the fire.
 
Project for a dome in the heart of the Château-Neuf, never built. Circa 1880

Accomplishments

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In 1671 Saturn's moon Iapetus was discovered from the observatory, followed by Rhea in 1672.[14] The moons Dione and Tethys were also discovered from the observatory in 1684.[14]

In 1676 the staff concluded that light itself was travelling at a finite speed.[15]

 
The Meridian Room (or Cassini Room) at the Paris Observatory. The Paris Meridian is traced on the floor.

The world's first national almanac, the Connaissance des temps, was published by the Observatory in 1679, using eclipses in Jupiter's satellites to aid sea-farers in establishing longitude. In 1863, the observatory published the first modern weather maps. In 1882, a 33 cm (13 in) astrographic lens was constructed, an instrument that catalysed what proved to be the over-ambitious international Carte du Ciel project.[citation needed]

In November 1913, the observatory used the Eiffel Tower as an antenna, exchanged sustained radio signals with the United States Naval Observatory in Washington, D.C. to determine the exact difference of longitude between the two institutions.[16]

Heritage

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The Paris Observatory library preserves a great number of original works and letters of the Observatory and well known astronomers. The entire collection has been inventoried in an online archive called Calames.[17] Some of the work is now digitized on the digital library such as those of Johannes Hevelius, Jérôme Lalande and Joseph-Nicolas Delisle.

Directors and staff

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The title of Director of the Observatory was officially given for the first time to César-François Cassini de Thury by a Royal brevet dated November 12, 1771.[18] However, the important role played by his grandfather and father in this institution during its first century actually gave them somewhat the role of Director.

The observatory did not have a recognised Director until 1771, before that each member could do as they pleased.[19] Sometimes Giovanni Domenico Cassini (1671–1712) and Jacques Cassini (1712–1756) are listed as "Directors" retrospectively. The same goes for François Arago, who also was not actually a Director although he did have a de facto position of leadership and is often credited as such.

The current President of the Observatory is Fabienne Casoli.[20]

Facilities

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The great refractor of Meudon overlooking the facilities' gardens.

The first site was the Paris headquarters established in 1667 by King Louis XIV of France. This facility had various work done on it over the centuries, and in 1927 the Meudon Observatory was added, which included a new site and facilities. It was built in 1891.

In addition to these sites, the Marseilles Observatory became a branch of the Paris Observatory in 1863.[21] In 1873, Marseilles Observatory detached from Paris Observatory.[22]

Paris

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King Louis XIV purchased the land for his new observatory in March 1667.[23] This provided a site for the activities of the Academy of Sciences near to the city of Paris.[23] The original buildings was designed by Claude Perrault.[24] A dome and terrace was added in 1847.[24]

Meudon

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Solar Observatory Tower

The Meudon site was constructed in the late 19th century by Jules Janssen, one of the discoverers of helium. With a million francs and permission to build on the ruins of the old royal palace, he constructed one of the grandest observatories of its day, with a focus on astronomy and solar physics. After World War I, the observatory was integrated with the nearby Paris Observatory and became an important campus for that observatory. Even into the 21st century solar observations are conducted at the Meudon site, and the preserved Great Refractor (Grande lunette) and astronomical gardens overlooking the city of Paris have delighted visitors for decades. The site includes:

Nançay

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Nançay radar antenna

After the Second World War, French astronomers began designing and building instruments for radio astronomy.[26] A field station was established in 1953, and by the late 1950s several radio instruments were established.[26] In 1965 the Nançay radio telescope was established, a design equivalent to an almost 100-metre dish.[27]

Saint-Véran

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Also known as the Observatoire du Pic de Château Renard, the Observatoire de Saint-Véran was built in 1974 on top of the Pic de Château Renard (2,900 m or 9,500 ft), in the commune of Saint-Véran in the Haut Queyras (Hautes Alpes département). A coronograph was in operation there for ten years; the dome was moved there from the Perrault building of the Observatoire de Paris.

Nowadays, the AstroQueyras amateur astronomy association operates the facility, using a 60 cm (24 in) telescope on loan from the Observatoire de Haute Provence. Numerous asteroids have been discovered there.[28]

Instruments past and present

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The Arago equatorial telescope (38 cm/ 15 inch aperture)
 
A meridian instrument of the Observatory

Early telescopes were supplied by the famed craftsman Giuseppe Campani.[29] Cassini, an astronomer who worked in the early days of the Observatory, had used Campani's telescopes in the 1660s, and continued to do so when he moved to the Paris Observatory.[30]

The Marly tower, moved to the observatory in 1685 for mounting telescopes, was demolished in 1705.[31] The Marly tower was originally made for the Versailles water supply system (see Machine de Marly), but was moved to the southern gardens area near the Paris Observatory.[32] The tower could hold the objective lens for extremely long focal length aerial telescopes.[32]

In 1732 a quadrant instrument made by Langlois was established at the Observatory.[33]

In 1804 a telescope of 8.4 cm aperture, made by Bellet, was established on the roof of the observatory.[34] In 1807 a Short reflector telescope was acquired, and there were several instruments available including a 9 cm aperture Dollond telescope, and a telescope by Lerebours.[34]

One of the special telescopes in the collection of the observatory, was the Passy telescope of King Louis XV.[34] This telescope was built by Dom Noel in the late 18th century, and was a reflecting telescope with a 61 cm aperture bronze mirror.[34] In 1805 the mirror was re-polished, but it was tarnished again within two years; it remained at the Observatory until it was dismantled in 1841.[35]

A Lerebours telescope of 24.4 cm aperture was installed in 1823, at a cost of 14,500 Francs.[36] In 1835 Arago used this telescope to observe the return of Halley's Comet that year.[36]

In 1837 the Gambey mural circle was installed, and also a transit instrument, also by Gambey.[37]

In 1857 a refracting telescope of 38 centimetres (14.96 in) aperture objective, the Arago equatorial telescope, was completed. This telescope was proposed by director François Arago in 1846.[24] It was installed in the east tower and was made by Lerebours.[37] This instrument is known to have conducted photometry measurements of Jupiter's moons (there were only four known at that time) in the late 1880s.[37]

In 1863 a large transit circle was installed, and in 1878 a meridian instrument.[38] The transit circle of 1863 was made by Secretan and Eichens.[37]

In 1875 a 120 cm aperture silver-on-glass reflecting telescope was built, for 400,000 francs[39] (the French unit of currency at that time).

This 120 cm diameter aperture telescope was a silvered glass mirror polished by Martin.[40] However, when it was mounted it was realized the gravity altered its shape because of the mirror's weight, thus causing an image quality issue.[40]

In 1886 a Henry astrograph with 13-inch objective was acquired.[37]

For the 1907 Transit of Mercury, some of the telescopes used at the Paris Observatory included:[35]

  • Foucault-Eichens reflector (40 cm (16 in) aperture)
  • Foucault-Eichens reflector (20 cm (7.9 in) aperture)
  • Martin-Eichens reflector (40 cm (16 in) aperture)
  • Several small refractors

The telescopes were mobile and were placed on the terrace for the observations.[35]

Meudon 83-cm Great Refractor

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The Grande Lunette of Meudon Observatory (France), is a double refractor with both an 83 cm and 62 cm aperture objective lenses on one shaft. It was installed in 1891.

The Meudon great refractor (Meudon 83-cm) is an 83 cm (33 in) aperture refractor, which, with September 20, 1909 observations by E. M. Antoniadi, helped disprove the Mars canals theory. It is a double telescope completed in 1891, with a secondary 62 cm (24 in) aperture lens for photography. It was of the largest refracting telescopes in Europe and was active for a century until 1991. In the 21st century, it was renovated and supports public education and visitation.

The Meudon refractor was built at Meudon Observatory. It is one of three sites of the Paris Observatory; Meudon Observatory became part of the Paris Observatory in 1926.[41] The Meudon Great refractor is the third largest astronomical refractor of its type in the world.[42] The Meudon refractor is located in the Grande Coupole building, which was renovated in the early 2000s.[41]

See also

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References

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  1. ^ Widemann, Thomas; Knobloch, Eberhard (2022). "Aux origines d'une science et d'une sociabilité européennes: l'Observatoire de Paris à 350 ans". Archives Internationales d'Histoire des Sciences. 72 (189): 6–23. ISSN 0003-9810.
  2. ^ a b Narayanan, Anil (2019-03-08). History of Indian Astronomy: The Siamese Manuscript. Lulu.com. ISBN 9781483496320.[self-published source]
  3. ^ "Paris Observatory – Observatoire de Paris – PSL Centre de recherche en astronomie et astrophysique". www.obspm.fr. Retrieved 2019-11-19.
  4. ^ Brück, Mary (2009-07-25). Women in Early British and Irish Astronomy: Stars and Satellites. Springer Science & Business Media. ISBN 9789048124732.
  5. ^ a b "The Paris Observatory". l'Observatoire de Paris. Archived from the original on 2007-08-24. Retrieved 2007-08-27.
  6. ^ Guinot (2000)
  7. ^ French legal time "French legal time is generated and provided by Observatoire de Paris as part of its missions and in agreement with Decree No. 2017-292 of March 6, 2017 defining French legal time. Legal time is constructed from UTC(OP), which is the real-time realization of UTC at Observatoire de Paris."
  8. ^ M. Abgrall; et al. (June 2015). "Atomic fountains and optical clocks at SYRTE: status and perspectives". Comptes Rendus Physique. 16 (5): 461–470. arXiv:1507.04623. doi:10.1016/j.crhy.2015.03.010.
  9. ^ Wolf, Charles (1827–1918) Auteur du texte (1902). Histoire de l'Observatoire de Paris, de sa fondation à 1793 / par C. Wolf,... Paris: Gauthier-Villars. pp. 1–12.{{cite book}}: CS1 maint: numeric names: authors list (link)
  10. ^ King, Peter (1858). The Life and Letters of John Locke. London: Henry Bohn. p. 73.
  11. ^ [Anon.] (2001) "Perrault, Claude", Encyclopædia Britannica, Deluxe CDROM edition
  12. ^ [Anon.] (2001) "Paris Observatory", Encyclopædia Britannica, Deluxe CDROM edition
  13. ^ [Anon.] (2001) "Prouvé, Jean", Encyclopædia Britannica, Deluxe CDROM edition
  14. ^ a b Levy, David H. (2010-09-09). Cosmic Discoveries: The Wonders of Astronomy. Prometheus Books. ISBN 9781615925667.
  15. ^ Abbott, Alison (January 2009). "Hidden treasures: the Paris Observatory". Nature. 457 (7225): 33. doi:10.1038/457033a. ISSN 1476-4687.
  16. ^ "Paris Time By Wireless," New York Times, Nov 22, 1913, pg 1.
  17. ^ Calames
  18. ^ Archives nationales, O1 117, fol. 991–993. See also Charles Wolf, Histoire de l'Observatoire de Paris de sa fondation à 1793, Paris : Gauthier-Villars, 1902, p. 194 and following.
  19. ^ Friedjung, M. (1971). "Cassini and the Paris Observatory". Journal of the British Astronomical Association. 81: 479. Bibcode:1971JBAA...81..479F.
  20. ^ "Fabienne Casoli élue Présidente de l'Observatoire de Paris – PSL – Observatoire de Paris – PSL Centre de recherche en astronomie et astrophysique". www.obspm.fr. Retrieved 2020-05-09.
  21. ^ Lequeux, James (2013-03-15). Le Verrier—Magnificent and Detestable Astronomer. Springer Science & Business Media. ISBN 9781461455653.
  22. ^ Prévot, Marie-Louise; Caplan, James (1998). "History of the Marseille Observatory". Acta Historica Astronomiae. 3: 78. Bibcode:1998AcHA....3...78P. ISSN 0003-2670.
  23. ^ a b Friedjung, M. (1971). "1971JBAA...81..479F Page 479". Journal of the British Astronomical Association. 81. Bibcode:1971JBAA...81..479F.
  24. ^ a b c Lequeux, James (January 2017). "The Paris Observatory has 350 years". L'Astronomie. 131: 28. Bibcode:2017LAstr.131a..28L. ISSN 0004-6302.
  25. ^ "Completion and delivery of equipment bay and camera to CNES mark major project milestone" (Press release). Released jointly by Observatoire de Paris, CNES and CNRS-INSU. 2005-06-30. Retrieved 2008-08-03.
  26. ^ a b Lequeux, James; Steinberg, Jean-Louis; Orchiston, Wayne (2010). "2010JAHH...13...29L Page 29". Journal of Astronomical History and Heritage. 13 (1): 29. Bibcode:2010JAHH...13...29L.
  27. ^ Davis, R. J.; Jackson, N. (1997-01-28). High-Sensitivity Radio Astronomy. Cambridge University Press. ISBN 978-0-521-57350-4.
  28. ^ "L'Observatoire du Pic de Château Renard (2900 m)". Histoire (in French). l'Observatoire de Paris. Archived from the original on 2007-09-15. Retrieved 2007-08-27.
  29. ^ Taton, R.; Wilson, C.; Hoskin, Michael (2003-09-18). Planetary Astronomy from the Renaissance to the Rise of Astrophysics, Part A, Tycho Brahe to Newton. Cambridge University Press. ISBN 978-0-521-54205-0.
  30. ^ Morrison-Low, Alison D. (2011-11-11). From Earth-Bound to Satellite: Telescopes, Skills and Networks. BRILL. ISBN 978-90-04-21150-6.
  31. ^ "A short Story of Paris Observatory – Histoire de l'Observatoire de Paris". sites.google.com. Retrieved 2019-11-20.
  32. ^ a b Orchiston, Wayne; Green, David A.; Strom, Richard (2014-11-24). New Insights From Recent Studies in Historical Astronomy: Following in the Footsteps of F. Richard Stephenson: A Meeting to Honor F. Richard Stephenson on His 70th Birthday. Springer. ISBN 978-3-319-07614-0.
  33. ^ King, Henry C. (2003-01-01). The History of the Telescope. Courier Corporation. ISBN 978-0-486-43265-6.
  34. ^ a b c d Lequeux, James (2015-09-08). François Arago: A 19th Century French Humanist and Pioneer in Astrophysics. Springer. ISBN 978-3-319-20723-0.
  35. ^ a b c Lequeux, James (2013-03-15). Le Verrier—Magnificent and Detestable Astronomer. Springer Science & Business Media. ISBN 978-1-4614-5565-3.
  36. ^ a b Lequeux, James (2015-09-08). François Arago: A 19th Century French Humanist and Pioneer in Astrophysics. Springer. ISBN 978-3-319-20723-0.
  37. ^ a b c d e Hutchins, Roger (2017-03-02). British University Observatories 1772–1939. Routledge. ISBN 9781351954525.
  38. ^ Lankford, John (2013-03-07). History of Astronomy: An Encyclopedia. Routledge. ISBN 9781136508349.
  39. ^ Observatory, United States Naval (1891). Astronomical and Meteorological Observations Made at the United States Naval Observatory During the Year ... U.S. Government Printing Office.
  40. ^ a b Newcomb, Simon (2011-10-24). Popular Astronomy. Cambridge University Press. ISBN 978-1-108-03773-0.
  41. ^ a b "UNESCO Astronomy and World Heritage Webportal – Home". www3.astronomicalheritage.net. Retrieved 2019-10-21.
  42. ^ "UNESCO Astronomy and World Heritage Webportal – Home".

Bibliography

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  • [Anon.] (2001) "Paris Observatory", Encyclopædia Britannica, Deluxe CDROM edition
  • Aubin, D. (2003). "The fading star of the Paris Observatory in the nineteenth century: astronomers' urban culture of circulation and observation". Osiris. 18: 79–100. Bibcode:2003Osir...18...79A. doi:10.1086/649378. S2CID 143773138. [1]
  • Guinot, B. (2000). "History of the Bureau International de l'Heure". Polar Motion: Historical and Scientific problems. pp. 175–184. Bibcode:2000ASPC..208..175G.
  • Widemann, T., Knobloch, E. (2022). "Aux origines d'une science et d'une sociabilité européennes: l'Observatoire de Paris à 350 ans", 'Archives Internationales d'Histoire des sciences, Vol. 72, N°189, 2022 ISBN 978-2-503-59736-2 [2]
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