Carme group
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The Carme group is a group of retrograde irregular satellites of Jupiter that follow similar orbits to Carme and are thought to have a common origin.
Their semi-major axes (distances from Jupiter) range between 22.9 and 24.1 Gm, their orbital inclinations between 164.9° and 165.5°, and their orbital eccentricities between 0.23 and 0.27 (with one exception).
The core members include (from largest to smallest):[1][2]
- Carme (the largest, which gives its name to the group)
- Taygete
- Eukelade[3]
- S/2003 J 5[3]
- Chaldene
- Isonoe
- Kalyke (substantially redder than the others)
- Erinome
- Aitne
- Kale
- Pasithee
- S/2003 J 9[3]
- S/2003 J 10[3]
The International Astronomical Union (IAU) reserves names in -e for all retrograde moons, including this group's members.
[edit] Origin
The very low dispersion of the mean1 orbital elements among the core members (the group is separated by less than 700,000km in semi major axis and less than 0.7° in inclination) suggests that the Carme group may once have been a single body that was broken apart by an impact. The dispersion can be explained by a very small velocity impulse (5 < δV < 50 m/s).[4] The parent body was probably about the size of Carme, 46 km in diameter; 99% of the group's mass is still located in Carme.[5]
Further support to the single body origin comes from the known colours: all2 the satellites appear light red, with colour indices B-V= 0.76 and V-R= 0.47[6] and infrared spectra, similar to D-type asteroids.[7] These data are consistent with a progenitor from the Hilda family or a Jupiter Trojan.
1Osculating orbital parameters of irregular satellites of Jupiter change widely in short intervals due to heavy perturbation by Jupiter. For example, changes of as much as 1 Gm in semi-major axis in 2 years, 0.5 in eccentricity in 12 years, and as much as 5° in 24 years have been reported. Mean orbital elements are the averages calculated by the numerical integration of current elements over a long period of time, used to determine the dynamical families. 2With the exception of Kalyke, substantially redder.
[edit] References
- ^ Scott S. Sheppard, David C. Jewitt, Carolyn Porco Jupiter's outer satellites and Trojans, In: Jupiter. The planet, satellites and magnetosphere. Edited by Fran Bagenal, Timothy E. Dowling, William B. McKinnon. Cambridge planetary science, Vol. 1, Cambridge, UK: Cambridge University Press, ISBN 0-521-81808-7, 2004, p. 263 - 280 Full text(pdf).
- ^ David Nesvorný, Cristian Beaugé, and Luke Dones Collisional Origin of Families of Irregular Satellites, The Astronomical Journal, 127 (2004), pp. 1768–1783 Full text.
- ^ a b c d Listed by Nesvorny 2004 as a possible member, not listed by Sheppard 2004; the orbital elements confirmed by Jacobson 2004
- ^ David Nesvorný, Jose L. A. Alvarellos, Luke Dones, and Harold F. Levison Orbital and Collisional Evolution of the Irregular Satellites, The Astronomical Journal,126 (2003), pages 398–429. (pdf)
- ^ Sheppard, Scott S.; Jewitt, David C. (May 5 2003). "An abundant population of small irregular satellites around Jupiter". Nature 423: 261–263. doi: .
- ^ Grav, Tommy; Holman, Matthew J.; Gladman, Brett J.; Aksnes, Kaare Photometric survey of the irregular satellites, Icarus, 166,(2003), pp. 33-45. Preprint
- ^ Tommy Grav and Matthew J. Holman Near-Infrared Photometry of the Irregular Satellites of Jupiter and Saturn,The Astrophysical Journal, 605, (2004), pp. L141–L144 Preprint
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