Timeline of telescopes, observatories, and observing technology

Timeline of telescopes, observatories, and observing technology.

Before the Common Era (BCE)

3500s BCE

1900s BCE

1500s BCE

600s BCE
  • 11th–7th century BCE, Zhou dynasty astronomical observatory (灵台) in today's Xian, China

200s BCE

100s BCE

Common Era (CE)

400s

500s

600s

700s
  • 700–77 – The first Zij treatise, Az-Zīj ‛alā Sinī al-‛Arab, written by Ibrahim al-Fazari and Muhammad al-Fazari
  • 700–96 – Brass astrolabe constructed by Muhammad al-Fazari based on Hellenistic sources
  • c. 777 – Yaqūb ibn Tāriq wrote Az-Zij al-Mahlul min as-Sindhind li-Darajat Daraja based on Brahmagupta and Surya Siddhanta

800s

900s
  • 10th century – Large astrolabe of diameter 1.4 meters constructed by Ibn Yunus
  • 900–29 – Az-Zij as-Sabi written by Muhammad ibn Jābir al-Harrānī al-Battānī (Albatenius)
  • 994 – First sextant constructed in Ray, Iran, by Abu-Mahmud al-Khujandi. It was a very large mural sextant that achieved a high level of accuracy for astronomical measurements.[4]

1000s

1100s

1200s

1300s

1400s

1500s
  • 1540 Apian "Astronomicum Caesareum"
  • 1560 – Kassel observatory under Landgrave Wilhelm IV of Hesse
  • 1574 – Taqi al-Din Muhammad ibn Ma'ruf describes a long-distance magnifying device in his Book of the Light of the Pupil of Vision and the Light of the Truth of the Sights, which may have possibly been an early rudimentary telescope.
  • 1575–80 – Constantinople Observatory of Taqi ad-Din under Sultan Murad III
  • 1576 – Royal Danish Astronomical Observatory Uraniborg at Hven by Tycho Brahe
  • 1577 – Constantinople observatory constructed for Taqi al-Din Muhammad ibn Ma'ruf
  • 1577–80 – Unbored Pearl, a Zij treatise by Taqi al-Din
  • 1577–80 – Taqi al-Din invents a mechanical astronomical clock that measures time in seconds, one of the most important innovations in 16th-century practical astronomy, as previous clocks were not accurate enough to be used for astronomical purposes.[15]
  • 1577–80 – Taqi al-Din invents framed sextant[15]
  • 1581 – Royal Danish Astronomical Observatory Stjerneborg at Hven by Tycho Brahe
  • 1589–90 – Celestial globe without seams invented in Mughal India by Ali Kashmiri ibn Luqman during Akbar the Great's reign.[16]

1600s

1700s

1800s

1900s
  • 1902 – Dominion Observatory, Ottawa, Ontario, Canada established
  • 1904 – Observatories of the Carnegie Institution of Washington founded
  • 1907 – F.C. Brown and Joel Stebbins develop a selenium cell photometer at the University of Illinois Observatory.

1910s

1930s
  • 1930 – Bernard-Ferdinand Lyot invents the coronagraph
  • 1930 – Karl Jansky builds a 30-meter long rotating aerial radio telescope This was the first radio telescope.
  • 1933 – Bernard-Ferdinand Lyot invents the Lyot filter
  • 1934 – Bernhard Schmidt finishes the first 14-inch (360 mm) Schmidt optical reflecting telescope
  • 1936 – Palomar 18-inch (460 mm) Schmidt optical reflecting telescope begins operation, located in Palomar, California
  • 1937 – Grote Reber builds a 31-foot (9.4 m) radio telescope

1940s
  • 1941 – Dmitri Dmitrievich Maksutov invents the Maksutov telescope which is adopted by major observatories in the Soviet Union and internationally. It is now also a popular design with amateur astronomers
  • 1946 – Martin Ryle and his group perform the first astronomical observations with a radio interferometer
  • 1947 – Bernard Lovell and his group complete the Jodrell Bank 218-foot (66 m) non-steerable radio telescope
  • 1949 – Palomar 48-inch (1.2 m) Schmidt optical reflecting telescope begins operation, located in Palomar, California
  • 1949 – Palomar 200-inch (5.1 m) optical reflecting telescope (Hale telescope) begins regular operation, located in Palomar, California

1950s

1960s

1970s

1980s

1990s
  • 1990 – Hubble 2.4m space Telescope launched, mirror found to be flawed
  • 1991 – Compton Gamma Ray Observatory satellite
  • 1993 – Keck 10-meter optical/infrared reflecting telescope begins operation, located at Mauna Kea, Hawaii
  • 1993 – Very Long Baseline Array of 10 dishes
  • 1995 – Cambridge Optical Aperture Synthesis Telescope (COAST)—the first very high resolution optical astronomical images (from aperture synthesis observations)
  • 1995 – Giant Metrewave Radio Telescope of thirty 45 m dishes at Pune
  • 1996 – Keck 2 10-meter optical/infrared reflecting telescope begins operation, located at Mauna Kea, Hawaii
  • 1997 – The Japanese HALCA satellite begins operations, producing first VLBI observations from space, 25,000 km maximum baseline
  • 1998 – First light at VLT1, the 8.2 m ESO telescope

2000s
  • 2001 – First light at the Keck Interferometer. Single-baseline operations begin in the near-infrared.
  • 2001 – First light at VLTI interferometry array. Operations on the interferometer start with single-baseline near-infrared observations with the 103 m baseline.
  • 2005 – First imaging with the VLTI using the AMBER optical aperture synthesis instrument and three VLT telescopes.
  • 2005 – First light at SALT, the largest optical telescope in the Southern Hemisphere, with a primary mirror diameter of 11 meters.

Under Construction

Planned
  • James Webb Space Telescope (JWST), previously known as Next Generation Space Telescope (NGST). Launch is planned for March 2021.
  • Public Telescope (PST), German project of astrofactum. Launch was planned for 2019,[23][24][25] but the project's website is now defunct and no updates have been provided on the fate of the effort.
  • Wide-field Infrared Survey Telescope (WFIRST), part of NASA's Exoplanet Exploration Program. Launch is tentatively scheduled for 2024.

See also

References
  1. King, David A. (2002), "A Vetustissimus Arabic Text on the Quadrans Vetus", Journal for the History of Astronomy, 33 (112): 237–255 [237–8], Bibcode:2002JHA....33..237K, doi:10.1177/002182860203300302
  2. Kennedy, Edward S. (1962), "Review: The Observatory in Islam and Its Place in the General History of the Observatory by Aydin Sayili", Isis, 53 (2): 237–239, doi:10.1086/349558
  3. Langermann, Y. Tzvi (1985), "The Book of Bodies and Distances of Habash al-Hasib", Centaurus, 28 (2): 108–128 [112], Bibcode:1985Cent...28..108T, doi:10.1111/j.1600-0498.1985.tb00831.x
  4. O'Connor, John J.; Robertson, Edmund F., "Al-Khujandi", MacTutor History of Mathematics archive, University of St Andrews.
  5. David Kahn (March 1980), "On the Origin of Polyalphabetic Substitution", Isis, University of Chicago Press, 71 (1): 122–127 [126], doi:10.1086/352410, JSTOR 230316
  6. Bryan S. Turner (March 1987), "State, Science and Economy in Traditional Societies: Some Problems in Weberian Sociology of Science", British Journal of Sociology, Blackwell Publishing, 38 (1): 1–23 [12], doi:10.2307/590576, JSTOR 590576
  7. Will Durant (1950). The Story of Civilization IV: The Age of Faith, pp. 239–45.
  8. John Brian Harley; David Woodward; G. Malcolm Lewis (1992). The History of Cartography: Cartography in the traditional Islamic and South Asian societies. 2. Oxford University Press. pp. 28–9. ISBN 0-226-31635-1.
  9. Hassan, Ahmad Y., Transfer Of Islamic Technology To The West, Part II: Transmission Of Islamic Engineering, retrieved 2008-01-22
  10. Lorch, R. P. (1976), "The Astronomical Instruments of Jabir ibn Aflah and the Torquetum", Centaurus, 20 (1): 11–34, Bibcode:1976Cent...20...11L, doi:10.1111/j.1600-0498.1976.tb00214.x
  11. Ancient Discoveries, Episode 11: Ancient Robots, History Channel, retrieved 2008-09-06
  12. "History of the sundial". National Maritime Museum. Archived from the original on 2007-10-10. Retrieved 2008-07-02.
  13. Jones, Lawrence (December 2005), "The Sundial And Geometry", North American Sundial Society, 12 (4)
  14. Pedersen, Olaf (2010). A Survey of the Almagest. Springer. pp. 20. ISBN 978-0387848259.
  15. Tekeli, Sevim (1997). "Taqi al-Din". Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures. Kluwer Academic Publishers. ISBN 0-7923-4066-3.
  16. Savage-Smith, Emilie (1985), Islamicate Celestial Globes: Their History, Construction, and Use, Smithsonian Institution Press, Washington, D.C.
  17. A. Rupert Hall (1996). Isaac Newton: Adventurer in Thought. Cambridge University Press. p. 67. ISBN 978-0-521-56669-8.
  18. Keenan, Philip C. (February 1, 1991). "The Earliest National Observatories in Latin America". Journal for the History of Astronomy. 22 (1): 21–30. Bibcode:1991JHA....22...21K. doi:10.1177/002182869102200104.
  19. Chronology of Science in the United States 1840–1849 (derived from Clark A. Elliott, History of Science in the United States: A Chronology and Research Guide – New York and London: Garland Publishing, 1996, pp. 34–177).
  20. Spectrometers, ASTROLab of Mont-Mégantic National Park
  21. J. B. Hearnshaw (1996-05-02). The Measurement of Starlight: Two Centuries of Astronomical Photometry. Cambridge University Press. p. 122. ISBN 978-0-521-40393-1.
  22. Khosroshai, Habib (1 May 2018). "Linking a noble past to future challenges". Nature Astronomy. 2 (5): 429. Bibcode:2018NatAs...2..429K. doi:10.1038/s41550-018-0465-5.
  23. "Public Telescope: Erstes öffentliches Weltraumteleskop". astrofactum. Archived from the original on 9 November 2017. Retrieved 8 October 2019.
  24. Lossau, Norbert (27 July 2014). "Weltraumteleskop für jedermann". Welt (in German). Retrieved 8 October 2019.
  25. Wiederer, Christian (February 2015). "The first public space telescope" (PDF). Popular Astronomy UK. Archived from the original (PDF) on 3 March 2016. Retrieved 8 October 2019.
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