Four temporary Neptune co-orbitals: (148975) 2001 XA255, (310071) 2010 KR59, (316179) 2010 EN65, and 2012 GX17

Marcos, C. de la Fuente; Marcos, R. de la Fuente

doi:10.1051/0004-6361/201220377

Cited by 11 publications

(1 citation statement)

References 35 publications

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“…The identified resonant configurations are temporary as the minor planets experience close encounters with the giant planets. This is akin to the temporary capture of NEAs in the (prograde) 1/1 resonance (Namouni et al 1999;Christou 2000) with the terrestrial planets and that of Centaurs in the same resonance with Uranus and Neptune(de la Fuente Marcos & de la Fuente Marcos 2012Marcos , 2013Alexandersen et al 2013).…”

Section: Numerical Integrations Of Objects In Retrograde Orbitsmentioning

confidence: 99%

Asteroids in retrograde resonance with Jupiter and Saturn

Morais

Namouni

2013

Monthly Notices of the Royal Astronomical Society: Letters

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We identify a set of asteroids among Centaurs and Damocloids, that orbit contrary to the common direction of motion in the Solar System and that enter into resonance with Jupiter and Saturn. Their orbits have inclinations I 140 • and semi-major axes a < 15 AU. Two objects are currently in retrograde resonance with Jupiter: 2006 BZ8 in the 2/-5 resonance and 2008 SO218 in the 1/-2 resonance. One object, 2009 QY6, is currently in the 2/-3 retrograde resonance with Saturn. These are the first examples of Solar System objects in retrograde resonance. The present resonant configurations last for several thousand years. Brief captures in retrograde resonance with Saturn are also possible during the 20,000 years integration timespan, particularly in the 1/-1 resonance (2006 BZ8) and the 9/-7 resonance (1999 LE31).

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Section: Numerical Integrations Of Objects In Retrograde Orbitsmentioning

confidence: 99%

Asteroids in retrograde resonance with Jupiter and Saturn

Morais

Namouni

2013

Monthly Notices of the Royal Astronomical Society: Letters

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Dynamics of “jumping” Trojans: a perturbative treatment

Сидоренко

2018

Celest Mech Dyn Astr

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The term "jumping" Trojan was introduced by Tsiganis et al. (2000) in their studies of long-term dynamics exhibited by the asteroid (1868) Thersites, which had been observed to jump from librations around L 4 to librations around L 5 . Another example of a "jumping" Trojan was found by Connors et al. (2011): librations of the asteroid 2010 TK7 around the Earth's libration point L 4 preceded by its librations around L 5 . We explore the dynamics of "jumping" Trojans under the scope of the restricted planar elliptical three-body problem. Via double numerical averaging we construct evolutionary equations, which allow analyzing transitions between the orbital motion regimes.

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