S/2003_J_12 References

S/2003 J 12
	S/2003 J 12 imaged by the Canada-France-Hawaii Telescope during follow-up observations in February 2003
Discovery
Discovered by	Scott S. Sheppard et al.
Discovery site	Mauna Kea Obs.
Discovery date	8 February 2003
Orbital characteristics
	Epoch 17 December 2020 ( JD 2459200.5)
Observation arc	9.65 yr (3,525 d)
Earliest precovery date	10 December 2001
Semi-major axis	0.1441046 AU (21,557,740 km)
Eccentricity	0.3657005
Orbital period (sidereal)	–1.77 yr (–646.64 d)
Mean anomaly	295.36521 °
Mean motion	0° 33m 24.215s / day
Inclination	154.69036° (to ecliptic)
Longitude of ascending node	127.52296°
Argument of perihelion	86.84711°
Satellite of	Jupiter
Group	Ananke group
Physical characteristics
Mean radius	1.2 km
Mass	1.9×1013 kg
Mean density	2.6 g/cm3 (assumed)
Albedo	0.04 (assumed)
Apparent magnitude	23.9
Absolute magnitude (H)	17.0; 16.81±0.19 (R)

S/2003 J 12 is a natural satellite of Jupiter, and is one of the smallest known natural satellites in the Solar System. It was discovered by a team of astronomers from the University of Hawaii led by Scott S. Sheppard in 2003.^[5]^[1]

S/2003 J 12 is about 2.4 km (1.5 mi) in diameter, and orbits Jupiter at an average distance of 21,600 Mm in 647 days, at an inclination of 155° to the ecliptic, in a retrograde direction and with an eccentricity of 0.366.^[2] It was initially thought to the innermost of the retrograde satellites of Jupiter, but recovery observations have shown that it is an ordinary member of the Ananke group.^[6]

This moon was considered lost^[7]^[8]^[9]^[10] until late 2020, when it was recovered in archival CFHT images from 2001-2011 by amateur astronomer Kai Ly.^[6] The recovery of the moon was announced by the Minor Planet Center on 13 January 2021.^[2]

References

^ ^a ^b MPEC 2003-E29: S/2003 J 9, 2003 J 10, 2003 J 11, 2003 J 12; S/2003 J 1, 2003 J 6 April 3, 2003 (discovery and ephemeris)
^ ^a ^b ^c ^d "MPEC 2021-A169 : S/2003 J 12". Minor Planet Electronic Circular. Minor Planet Center. January 13, 2021. Retrieved January 13, 2021.
^ ^a ^b Emelyanov, N. V.; Varfolomeev, M. I.; Lainey, V. (March 24, 2022). "New ephemerides of outer planetary satellites". Monthly Notices of the Royal Astronomical Society. 512 (2): 2044–2050. doi: 10.1093/mnras/stac586.
^ ^a ^b S.S. Sheppard (2019), Moons of Jupiter, Carnegie Science, on line
^ Daniel W. E. Green (March 7, 2003). "IAUC 8089: Satellites of Jupiter". International Astronomical Union.
^ ^a ^b Hecht, Jeff (January 11, 2021). "Amateur Astronomer Finds "Lost" Moons of Jupiter". www.skyandtelescope.com. Sky & Telescope. Retrieved January 11, 2021.
^ Beatty, Kelly (April 4, 2012). "Outer-Planet Moons Found — and Lost". www.skyandtelescope.com. Sky & Telescope. Retrieved June 27, 2017.
^ Brozović, Marina; Jacobson, Robert A. (March 9, 2017). "The Orbits of Jupiter's Irregular Satellites". The Astronomical Journal. 153 (4): 147. Bibcode: 2017AJ....153..147B. doi: 10.3847/1538-3881/aa5e4d.
^ Jacobson, B.; Brozović, M.; Gladman, B.; Alexandersen, M.; Nicholson, P. D.; Veillet, C. (September 28, 2012). "Irregular Satellites of the Outer Planets: Orbital Uncertainties and Astrometric Recoveries in 2009–2011". The Astronomical Journal. 144 (5): 132. Bibcode: 2012AJ....144..132J. doi: 10.1088/0004-6256/144/5/132. S2CID 123117568.
^ Sheppard, Scott S. (2017). "New Moons of Jupiter Announced in 2017". home.dtm.ciw.edu. Retrieved June 27, 2017. We likely have all of the lost moons in our new observations from 2017, but to link them back to the remaining lost 2003 objects requires more observations a year later to confirm the linkages, which will not happen until early 2018. ... There are likely a few more new moons as well in our 2017 observations, but we need to reobserve them in 2018 to determine which of the discoveries are new and which are lost 2003 moons.

[MPEC-2003-E29-1] MPEC 2003-E29: S/2003 J 9, 2003 J 10, 2003 J 11, 2003 J 12; S/2003 J 1, 2003 J 6 April 3, 2003 (discovery and ephemeris)

[MPEC-2021-A169-2] "MPEC 2021-A169 : S/2003 J 12". Minor Planet Electronic Circular. Minor Planet Center. January 13, 2021. Retrieved January 13, 2021.

[EmelyanovEtAl2022-3] Emelyanov, N. V.; Varfolomeev, M. I.; Lainey, V. (March 24, 2022). "New ephemerides of outer planetary satellites". Monthly Notices of the Royal Astronomical Society. 512 (2): 2044–2050. doi: 10.1093/mnras/stac586.

[SheppardMoons-4] S.S. Sheppard (2019), Moons of Jupiter, Carnegie Science, on line

[5] Daniel W. E. Green (March 7, 2003). "IAUC 8089: Satellites of Jupiter". International Astronomical Union.

[Hecht2020-6] Hecht, Jeff (January 11, 2021). "Amateur Astronomer Finds "Lost" Moons of Jupiter". www.skyandtelescope.com. Sky & Telescope. Retrieved January 11, 2021.

[7] Beatty, Kelly (April 4, 2012). "Outer-Planet Moons Found — and Lost". www.skyandtelescope.com. Sky & Telescope. Retrieved June 27, 2017.

[Jacobson-8] Brozović, Marina; Jacobson, Robert A. (March 9, 2017). "The Orbits of Jupiter's Irregular Satellites". The Astronomical Journal. 153 (4): 147. Bibcode: 2017AJ....153..147B. doi: 10.3847/1538-3881/aa5e4d.

[9] Jacobson, B.; Brozović, M.; Gladman, B.; Alexandersen, M.; Nicholson, P. D.; Veillet, C. (September 28, 2012). "Irregular Satellites of the Outer Planets: Orbital Uncertainties and Astrometric Recoveries in 2009–2011". The Astronomical Journal. 144 (5): 132. Bibcode: 2012AJ....144..132J. doi: 10.1088/0004-6256/144/5/132. S2CID 123117568.

[10] Sheppard, Scott S. (2017). "New Moons of Jupiter Announced in 2017". home.dtm.ciw.edu. Retrieved June 27, 2017. We likely have all of the lost moons in our new observations from 2017, but to link them back to the remaining lost 2003 objects requires more observations a year later to confirm the linkages, which will not happen until early 2018. ... There are likely a few more new moons as well in our 2017 observations, but we need to reobserve them in 2018 to determine which of the discoveries are new and which are lost 2003 moons.

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v t e Moons of Jupiter
Listed in increasing approximate distance from Jupiter
Inner moons	Metis Adrastea Amalthea Thebe
Galilean moons	Io Europa Ganymede Callisto
Themisto	Themisto
Himalia group (9)	Leda Ersa S/2018 J 2 Himalia Pandia Lysithea Elara S/2011 J 3 Dia
Carpo group (2)	S/2018 J 4 Carpo
Valetudo	Valetudo
Ananke group (26)	Euporie Jupiter LV Eupheme S/2021 J 3 Jupiter LII Jupiter LIV Mneme Euanthe S/2003 J 16 Harpalyke Orthosie S/2022 J 3 Helike S/2021 J 2 Praxidike Jupiter LXIV S/2021 J 1 S/2003 J 12 Jupiter LXVIII Thelxinoe Thyone S/2003 J 2 Ananke Iocaste Hermippe Jupiter LXX
Carme group (30)	S/2022 J 1 S/2022 J 2 S/2016 J 3 Pasithee Jupiter LXIX S/2021 J 6 S/2003 J 24 Chaldene Jupiter LXIII Isonoe S/2021 J 4 Kallichore Erinome Kale Eirene Aitne Eukelade Arche Taygete Jupiter LXXII Carme Herse Jupiter LXI Jupiter LI S/2003 J 9 Jupiter LXVI Kalyke S/2018 J 3 S/2021 J 5 S/2003 J 10
Pasiphae group (18)	Philophrosyne Eurydome Jupiter LVI S/2003 J 4 S/2016 J 4 Jupiter LXVII Hegemone Pasiphae Sponde Megaclite Cyllene Sinope Jupiter LIX Aoede Autonoe Callirrhoe S/2003 J 23 Kore
See also	Rings of Jupiter Jupiter's moons in fiction
Category

Discovery^[1]
S/2003 J 12 imaged by the Canada-France-Hawaii Telescope during follow-up observations in February 2003
Discovered by	Scott S. Sheppard et al.
Discovery site	Mauna Kea Obs.
Discovery date	8 February 2003
Orbital characteristics^[2]
Epoch 17 December 2020 ( JD 2459200.5)
Observation arc	9.65 yr (3,525 d)
Earliest precovery date	10 December 2001
Semi-major axis	0.1441046 AU (21,557,740 km)
Eccentricity	0.3657005
Orbital period (sidereal)	–1.77 yr (–646.64 d)
Mean anomaly	295.36521 °
Mean motion	0° 33^m 24.215^s / day
Inclination	154.69036° (to ecliptic)
Longitude of ascending node	127.52296°
Argument of perihelion	86.84711°
Satellite of	Jupiter
Group	Ananke group
Physical characteristics^[3]
Mean radius	1.2 km
Mass	1.9×10¹³ kg
Mean density	2.6 g/cm³ (assumed)
Albedo	0.04 (assumed)^[4]
Apparent magnitude	23.9^[4]
Absolute magnitude (H)	17.0^[2] 16.81±0.19 (R)^[3]