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Precovery

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The Jupiter moon Valetudo was first discovered in 2017, but a number of precovery images have been identified since, including this one taken on 28 February 2003 by the Canada–France–Hawaii Telescope, in which Valetudo's position is marked by the two orange bars.

In astronomy, precovery (short for pre-discovery recovery)[1][2] is the process of finding the image of an object in images or photographic plates predating its discovery, typically for the purpose of calculating a more accurate orbit. This happens most often with minor planets, but sometimes a comet, a dwarf planet, a natural satellite, or a star is found in old archived images; even exoplanet precovery observations have been obtained.[3] "Precovery" refers to a pre-discovery image; "recovery" refers to imaging of a body which was lost to our view (as behind the Sun), but is now visible again (also see lost minor planet and lost comet).

Orbit determination requires measuring an object's position on multiple occasions. The longer the interval between observations, the more accurately the orbit can be calculated; however, for a newly discovered object, only a few days' or weeks' worth of measured positions may be available, sufficient only for a preliminary (imprecise) orbit calculation.

When an object is of particular interest (such as asteroids with a chance of impacting Earth), researchers begin a search for precovery images. Using the preliminary orbit calculation to predict where the object might appear on old archival images, those images (sometimes decades old) are searched to see if it had in fact already been photographed. If so, a far longer observation arc can allow a far more precise orbital calculation.

Until fast computers were widely available, it was impractical to analyze and measure images for possible minor planet discoveries because this required much human labor. Usually, such images were made years or decades earlier for other purposes (studies of galaxies, etc.), and it was not worth the time it took to look for precovery images of ordinary asteroids. Today, computers can easily analyze digital astronomical images and compare them to star catalogs containing up to a billion or so star positions to see if one of the "stars" is actually a precovery image of the newly discovered object. This technique has been used since the mid-1990s to determine the orbits of many minor planets.

Examples

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In an extreme case of precovery, an object was discovered on December 31, 2000, designated 2000 YK66, and a near-Earth orbit was calculated. Precovery revealed that it had previously been discovered on February 23, 1950 and given the provisional designation 1950 DA, and then been lost for half a century. The exceptionally long observation period allowed an unusually precise orbit calculation, and the asteroid was determined to have a small chance of colliding with the Earth. After an asteroid's orbit is calculated with sufficient precision, it can be assigned a number prefix (in this case, (29075) 1950 DA).

The asteroid 69230 Hermes was found in 2003 and numbered, but was found to be a discovery from 1937 which had been named "Hermes", but subsequently lost; its old name was reinstated. Centaur 2060 Chiron was discovered in 1977, and precovery images from 1895 have been located.[4]

Another noteworthy case of precovery concerns Neptune. Galileo observed Neptune on both December 28, 1612 and January 27, 1613, when it was in a portion of its orbit where it was nearly directly behind Jupiter as seen from Earth. Because Neptune moves very slowly and is very faint relative to the known planets of that time, Galileo mistook it for a fixed star, leaving the planet undiscovered until 1846. He did note that the "star" Neptune did seem to move, noting that between his two observations its apparent distance from another star had changed. However, unlike photographic images, drawings such as those Galileo made are usually not precise enough to be of use in refining an object's orbit. In 1795, Lalande also mistook Neptune for a star.[5] In 1690, John Flamsteed did the same with Uranus, even cataloging it as "34 Tauri".

One of the most exceptional suggested instances is related to the discovery of Ganymede. This again involved Galileo, who is usually stated to have discovered it in 1610. It has been postulated by Xi Zezong that Ganymede was discovered by the Chinese astronomer Gan De in 365 B.C., when he catalogued it as a small red star next to Jupiter during naked eye observation.[6]

Dwarf planets

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Discovery and precovery dates for well-known dwarf planets, minor planets and probable dwarf planets:

Index Object Discovery
Year
Precovery
Year
Years Elapsed Absolute
Magnitude
2 Pallas 1802 1779[7] 23 4.13
134340 Pluto 1930 1909[8] 21 -0.7
19521 Chaos 1998 1991 [9] 7 5.0
20000 Varuna 2000 1954[10] 46 3.76
38628 Huya 2000 1996[11] 4 5.04
78799 2002 XW93 2002 1989 [12] 13 5.5
28978 Ixion 2001 1982[13] 19 3.6
55637 2002 UX25 2002 1991 [14] 11 3.87
50000 Quaoar 2002 1954[15] 48 2.82
307261 2002 MS4 2002 1954[16] 48 3.7
55565 2002 AW197 2002 1997 [17] 5 3.5
2002 XV93 2002 1990 [18] 12 5.42
174567 Varda 2003 1980 [19] 23 3.1
84922 2003 VS2 2003 1991 [20] 12 4.1
208996 2003 AZ84 2003 1996 [21] 7 3.54
455502 2003 UZ413 2003 1954 [22] 49 4.38
90377 Sedna 2003 1990[23] 13 1.83
444030 2004 NT33 2004 1982 [24] 22 4.4
230965 2004 XA192 2004 1989 [25] 15 4.1
90568 2004 GV9 2004 1954 [26] 50 4.25
90482 Orcus 2004 1951[27] 53 2.2
175113 2004 PF115 2004 1992 [28] 12 4.54
120347 Salacia 2004 1982 [29] 22 4.36
120348 2004 TY364 2004 1983 [30] 21 4.52
136108 Haumea 2004 1955[31] 49 0.2
145451 2005 RM43 2005 1976 [32] 29 4.4
145452 2005 RN43 2005 1954 [33] 51 3.89
202421 2005 UQ513 2005 1990 [34] 15 3.4
136199 Eris 2005 1954[35] 51 -1.17
136472 Makemake 2005 1955[36] 50 -0.3
470308 2007 JH43 2007 1984 [37] 23 4.49
229762 Gǃkúnǁʼhòmdímà 2007 1982 [38] 25 3.69
225088 Gonggong 2007 1985[39] 22 1.8
523671 2013 FZ27 2013 2001[40] 12 4.1
472271 2014 UM33 2014 2003 [41] 11 5.2
523794 2015 RR245 2015 2004[42] 11 3.6
2018 VG18 2018 2003 [43] 15 3.5

Oort cloud comets

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Oort cloud comets can take 10+ years going from Neptune's orbit at 30.1 AU (4.50 billion km) to perihelion (closest approach to the Sun). As modern survey archives reach fainter magnitudes and are more comprehensive, significant precovery images have become easier to locate.

Oort Cloud Comets
Comet Discovery
date
Precovery
date
Discovery
distance
from Sun (AU)
Precovery
distance
from Sun (AU)
Ref
C/2010 U3 (Boattini) 2010-10-31 2005-11-05 18.4 25.8 JPL
C/2012 S1 (ISON) 2012-09-21 2011-09-30 6.3 9.4 JPL
C/2013 A1 (Siding Spring) 2013-01-03 2012-10-04 7.2 7.9 JPL
C/2017 K2 (PANSTARRS) 2017-05-21 2013-05-12 16.1 23.7 JPL

See also

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References

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  1. ^ McNaught, R. H.; Steel, D. I.; Russell, K. S.; Williams, G. V. (March 7–11, 1994). "Near-Earth Asteroids on Archival Schmidt Plates". In Jessica Chapman; Russell Cannon; Sandra Harrison; Bambang Hidayat (eds.). Proceedings, The future utilisation of Schmidt telescopes. IAU Colloquium 148. Vol. 84. Bandung, Indonesia: Astronomical Society of the Pacific. p. 170. Bibcode:1995ASPC...84..170M.
  2. ^ D.I. Steel, R.H. McNaught, G.J. Garradd, D.J. Asher and K.S. Russell (25 March 1997). "AANEAS: A Valedictory Report". Archived from the original on 2012-07-28.{{cite web}}: CS1 maint: multiple names: authors list (link)
  3. ^ Villard, Ray; Lafreniere, David (April 1, 2009). "Hubble Finds Hidden Exoplanet in Archival Data". HubbleSite NewsCenter. NASA. Archived from the original on April 5, 2009. Retrieved 2024-06-25.
  4. ^ "JPL Small-Body Database Browser: 2060 Chiron (1977 UB)" (2009-09-17 last obs). Archived from the original on 2011-06-09. Retrieved 2010-02-08.
  5. ^ Fred William Price (2000). The planet observer's handbook. Cambridge University Press. p. 352. ISBN 9780521789813. Retrieved 2009-09-11.
  6. ^ "Galilean Moons– Gan De". Archived from the original on 2017-12-01. Retrieved 27 November 2017.
  7. ^ "Charles Messier, premier observateur de l'astéroïde Pallas". cieletespace.fr. Archived from the original on 16 March 2016. Retrieved 7 May 2018.
  8. ^ Wild, W. J.; Buchwald, G.; Dimario, M. J.; Standish, E. M. (December 1998). "Serendipitous Discovery of the Oldest Known Photographic Plates with Images of Pluto". American Astronomical Society. 30: 1449. Bibcode:1998DPS....30.5514W.
  9. ^ "JPL Small-Body Database Browser".
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  15. ^ "JPL Small-Body Database Browser: 50000 Quaoar (2002 LM60)" (2009-09-12 last obs). Archived from the original on 2011-06-11. Retrieved 2010-02-08.
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  27. ^ "JPL Small-Body Database Browser: 90482 Orcus (2004 DW)" (2009-04-28 last obs). Archived from the original on 2015-11-05. Retrieved 2010-02-08.
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  31. ^ "JPL Small-Body Database Browser: 136108 Haumea (2003 EL61)" (2010-01-26 last obs). Archived from the original on 2011-06-09. Retrieved 2010-02-08.
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  35. ^ "JPL Small-Body Database Browser: 136199 Eris (2003 UB313)" (2009-11-20 last obs). Archived from the original on 2011-05-12. Retrieved 2010-02-08.
  36. ^ "JPL Small-Body Database Browser: 136472 Makemake (2005 FY9)" (2010-01-26 last obs). Archived from the original on 2011-08-30. Retrieved 2010-02-08.
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  39. ^ "JPL Small-Body Database Browser: 225088 (2007 OR10)" (2009-10-19 last obs). Archived from the original on 2011-11-15. Retrieved 2010-02-08.
  40. ^ "JPL Small-Body Database Browser: 2013 FZ27)" (2014-03-26 last obs). Retrieved 2015-04-13.
  41. ^ "JPL Small-Body Database Browser".
  42. ^ "JPL Small-Body Database Browser: 2015 RR245)" (2016-06-08 last obs). Archived from the original on 2016-12-27. Retrieved 2016-12-26.
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