Surface composition and dynamical evolution of two retrograde objects in the outer solar system: 2008 YB3 and 2005 VD

Most of the objects in the trans-Neptunian belt (TNb) and related populations move in prograde orbits with low eccentricity and inclination. However, the list of icy minor bodies moving in orbits with an inclination above 40° has increased in recent years. The origin of these bodies, and in particul...

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Published inAstronomy and astrophysics (Berlin) Vol. 550; pp. 1 - 9
Main Authors Pinilla-Alonso, N., Alvarez-Candal, A., Melita, M. D., Lorenzi, V., Licandro, J., Carvano, J., Lazzaro, D., Carraro, G., Alí-Lagoa, V., Costa, E., Hasselmann, P. H.
Format Journal Article
LanguageEnglish
Published EDP Sciences 01.02.2013
Subjects
Astronomy
Color
Eccentricity
Inclination
Kuiper belt objects: individual: 2005 VD
Kuiper belt objects: individual: 2008 YB3
methods: numerical
Oort Cloud
Orbits
Retrograde orbits
Solar system evolution
Surface chemistry
techniques: photometric
techniques: spectroscopic
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Summary:Most of the objects in the trans-Neptunian belt (TNb) and related populations move in prograde orbits with low eccentricity and inclination. However, the list of icy minor bodies moving in orbits with an inclination above 40° has increased in recent years. The origin of these bodies, and in particular of those objects in retrograde orbits, is not well determined, and different scenarios are considered, depending on their inclination and perihelion. In this paper, we present new observational and dynamical data of two objects in retrograde orbits, 2008 YB3 and 2005 VD. We find that the surface of these extreme objects is depleted of ices and does not contain the “ultra-red” matter typical of some Centaurs. Despite small differences, these objects share common colors and spectral characteristics with the Trojans, comet nuclei, and the group of grey Centaurs. All of these populations are supposed to be covered by a mantle of dust responsible for their reddish-to-neutral color. To investigate if the surface properties and dynamical evolution of these bodies are related, we integrate their orbits for 108 years to the past. We find a remarkable difference in their dynamical evolutions: 2005 VD’s evolution is dominated by a Kozai resonance with planet Jupiter while that of 2008 YB3 is dominated by close encounters with planets Jupiter and Saturn. Our models suggest that the immediate site of provenance of 2005 VD is the in the Oort Cloud, whereas for 2008 YB3 it is in the trans-Neptunian region. Additionally, the study of their residence time shows that 2005 VD has spent a larger lapse of time moving in orbits in the region of the giant planets than 2008 YB3. Together with the small differences in color between these two objects, with 2005 VD being more neutral than 2008 YB3, this fact suggests that the surface of 2005 VD has suffered a higher degree of processing, which is probably related to cometary activity episodes.
Bibliography:ark:/67375/80W-VPDS5JZ8-Q
bibcode:2013A%26A...550A..13P
Partially based on observations made with ESO telescopes at the La Silla Paranal Observatory under program ID 286.C-5019(A) and with SOAR telescope. The SOAR telescope is a joint project of Conselho Nacional de Pesquisas Cientificas e Tecnologicas CNPq-Brazil, The University of North Caroline at Chapel Hill Michigan State University, and the National Optical Astronomy Observatory.
dkey:10.1051/0004-6361/201220030
publisher-ID:aa20030-12
The author thanks the Instituto Nacional de Ciência e Tecnologia de Astrofísica (INCT-A) for support through a Bolsa a Especialista Visitante (BEV).
istex:284FB776F2FA249BB854F42A275AD6AB936EF196
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/201220030