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Temporary satellite

Object captured by a planet for a while From Wikipedia, the free encyclopedia

"mini-moon" redirects here. For the Sailor Moon character, see Chibiusa.

A temporary satellite is an object which has been captured by the gravitational field of a planet and thus has become the planet's natural satellite, but, unlike irregular moons of the larger outer planets of the Solar System, will eventually either leave its orbit around the planet or collide with the planet. The only observed examples are 2006 RH120, a temporary satellite of Earth for twelve months from July 2006 to July 2007, 2020 CD3[1][2] and 2022 NX1. Some defunct space probes or rockets have also been observed on temporary satellite orbits.[3]

In astrophysics, a temporary satellite is any body that enters the Hill sphere of a planet at a sufficiently low velocity such that it becomes gravitationally bound to the planet for some period of time.[4]

Capture of asteroids

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The dynamics of the capture of asteroids by Earth was explored in simulations conducted on a supercomputer,[5] with results published in 2012.[6] Of 10 million virtual near-Earth asteroids, 18,000 have been temporarily captured.[6] Earth has at least one temporary satellite 1 m (3.3 ft) across at any given time, but they are too faint to detect by current surveys.[5]

According to the simulations, temporary satellites are typically caught and released when they pass one of two gravitational equilibrium points of the Sun and the planet along the line connecting the two, the L1 and L2 Lagrangian points.[5] The captured asteroids typically have orbits very similar to the planet's (co-orbital configuration) and are captured most often when the planet is closest to the Sun (in the case of the Earth, in January) or furthest from the Sun (Earth: in July).[5]

In strict sense, only bodies that complete a full orbit around a planet are considered temporary satellites, also called temporarily captured orbiters (TCO). However, asteroids not in a tight co-orbital configuration with a planet can be temporarily captured for less than a full orbit; such objects have been named temporarily-captured fly-bys (TCF).[7] In a 2017 follow-up to the 2012 simulation study which also considered an improved model of near-Earth asteroid populations, 40% of captured objects were TCF. The combined number of TCO/TCF was found to be smaller than in the previous study, the maximum size of objects which can be expected to be orbiting Earth at any given moment was 0.8 m (2.6 ft).[7] In another 2017 study based on simulations with one million virtual co-orbital asteroids, 0.36% have been temporarily captured.[8]

Examples

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As of February 2020, two objects have been observed at the time when they were temporary satellites: 2006 RH120[1][9][10] and 2020 CD3.[11] According to orbital calculations, on its solar orbit, 2006 RH120 passes Earth at low speed every 20 to 21 years,[10] at which point it can become a temporary satellite again.

As of March 2018, there is one confirmed example of a temporarily captured asteroid that didn't complete a full orbit, 1991 VG.[8] This asteroid was observed for a month after its discovery in November 1991, then again in April 1992, after which it wasn't seen until May 2017.[12] After the recovery, orbital calculations confirmed that 1991 VG was a temporary satellite of Earth in February 1992.[8] Another temporary capture episode was experienced by 2022 NX1 that may return as a mini-moon in December 2051.[13][14] Another temporary capture episode is predicted to occur from September 29, 2024 to November 25, 2024, when 2024 PT5 is captured by Earth.[15]

More information Name, Eccentricity ...
Known and suspected companions of Earth
Name Eccentricity Diameter
(m)		 Discoverer Date of Discovery Type Current Type
Moon0.0553474800 ?PrehistoryNatural satelliteNatural satellite
1913 Great Meteor Procession ? ? ?1913-02-09Possible Temporary satelliteDestroyed
3753 Cruithne0.5155000Duncan Waldron1986-10-10Quasi-satelliteHorseshoe orbit
1991 VG0.0535–12Spacewatch1991-11-06Temporary satelliteApollo asteroid
(85770) 1998 UP10.345210–470Lincoln Lab's ETS1998-10-18Horseshoe orbitHorseshoe orbit
54509 YORP0.230124Lincoln Lab's ETS2000-08-03Horseshoe orbitHorseshoe orbit
2001 GO20.16835–85Lincoln Lab's ETS2001-04-13Possible Horseshoe orbitPossible Horseshoe orbit
2002 AA290.01320–100LINEAR2002-01-09Quasi-satelliteHorseshoe orbit
2003 YN1070.01410–30LINEAR2003-12-20Quasi-satelliteHorseshoe orbit
164207 Cardea0.136160–360LINEAR2004-04-13Quasi-satelliteQuasi-satellite
(277810) 2006 FV350.377140–320Spacewatch2006-03-29Quasi-satelliteQuasi-satellite
2006 JY260.0836–13Catalina Sky Survey2006-05-06Horseshoe orbitHorseshoe orbit
2006 RH1200.0242–3Catalina Sky Survey2006-09-13Temporary satelliteApollo asteroid
(419624) 2010 SO160.075357WISE2010-09-17Horseshoe orbitHorseshoe orbit
(706765) 2010 TK70.191150–500WISE2010-10-01Earth trojanEarth trojan
2013 BS450.08320–40Spacewatch2010-01-20Horseshoe orbitHorseshoe orbit
2013 LX280.452130–300Pan-STARRS2013-06-12Quasi-satellite temporaryQuasi-satellite temporary
2014 OL3390.46170–160EURONEAR2014-07-29Quasi-satellite temporaryQuasi-satellite temporary
2015 SO20.10850–110Črni Vrh Observatory2015-09-21Quasi-satelliteHorseshoe orbit temporary
2015 XX1690.1849–22Mount Lemmon Survey2015-12-09Horseshoe orbit temporaryHorseshoe orbit temporary
2015 YA0.2799–22Catalina Sky Survey2015-12-16Horseshoe orbit temporaryHorseshoe orbit temporary
2015 YQ10.4047–16Mount Lemmon Survey2015-12-19Horseshoe orbit temporaryHorseshoe orbit temporary
469219 Kamoʻoalewa0.10440-100Pan-STARRS2016-04-27Quasi-satellite stableQuasi-satellite stable
DN16082203 ? ? ?2016-08-22Possible Temporary satelliteDestroyed
2020 CD30.0171–6Mount Lemmon Survey2020-02-15Temporary satelliteApollo asteroid
2020 PN10.12710–50ATLAS-HKO2020-08-12Horseshoe orbit temporaryHorseshoe orbit temporary
2020 PP10.07410–20Pan-STARRS2020-08-12Quasi-satellite stableQuasi-satellite stable
(614689) 2020 XL50.3871100-1260Pan-STARRS2020-12-12Earth trojanEarth trojan
2022 NX10.0255-15Moonbase South Observatory2020-07-02Temporary satelliteApollo asteroid
2023 FW130.17710-20Pan-STARRS2023-03-28Quasi-satelliteQuasi-satellite
2024 PT50.0217–13ATLAS South Africa, Sutherland2024-08-07Temporary satelliteTemporary satellite
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Artificial objects on temporary satellite orbits

The Earth can also temporarily capture defunct space probes or rockets travelling on solar orbits, in which case astronomers cannot always immediately determine whether the object is artificial or natural. The possibility of an artificial origin has been considered for both 2006 RH120[1] and 1991 VG.[8]

The artificial origin has been confirmed in other cases. In September 2002, astronomers found an object designated J002E3. The object was on a temporary satellite orbit around Earth, leaving for a solar orbit in June 2003. Calculations showed that it was also on a solar orbit before 2002, but was close to Earth in 1971. J002E3 was identified as the third stage of the Saturn V rocket that carried Apollo 12 to the Moon.[16][3] In 2006, an object designated 6Q0B44E was discovered on a temporary satellite orbit, later its artificial nature was confirmed, but its identity is unknown.[3] Another confirmed artificial temporary satellite with unidentified origin is 2013 QW1.[3]

See also

References

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