Remus (moon)

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Remus

Discovery [1]
Discovered by	Franck Marchis, Pascal Descamps, Daniel Hestroffer, and Jérôme Berthier
Discovered on	August 9, 2004
Orbital characteristics [2]
Is a satellite of	87 Sylvia
Semimajor axis	706 ± 5 km
Eccentricity	0.016 ± 0.011
Orbital period	1.3788 ± 0.0007 d
Orbital speed	37.2 m/s
Inclination	2.0 ± 1.0° (with respect to Sylvia equator)
Physical characteristics
Dimensions	7 ± 2 km [2][3]
Mass	~ 2×1014 kg (estimate) [4]
Escape velocity	~ 4 m/s (estimate)
Rotation period	unknown, probably synchronous[5]
Axial tilt	unknown, zero expected
Albedo	unknown
Absolute magnitude	11.1 [2]

Remus is the inner and smaller moon of the main belt asteroid 87 Sylvia. It follows an almost-circular close-to-equatorial orbit around the parent asteroid. In this respect it is similar to the other moon Romulus.

Remus was discovered several years after Romulus on images taken starting on August 9, 2004 and announced on August 10, 2005. It was discovered by Franck Marchis of UC Berkeley, and Pascal Descamps, Daniel Hestroffer, and Jérôme Berthier of the Observatoire de Paris, France, using the Yepun telescope of the European Southern Observatory (ESO) in Chile. Marchis, the project leader, was waiting for the completion of the image acquisition programme before starting to process the data. Just as he was set to go on vacation in March 2005, Descamps sent him a brief note entitled "87 Sylvia est triple ?" pointing out that he could see two moonlets on several images of Sylvia. The entire team then focused quickly on analysis of the data, wrote a paper, submitted an abstract to the August meeting in Rio de Janeiro and submitted a naming proposal to the IAU.

Its full designation is (87) Sylvia II Remus; before receiving its name, it was known as S/2004 (87) 1. The moon is named after Remus, twin of the mythological founder of Rome, one of the children of Rhea Silvia raised by a wolf.

87 Sylvia, has a low density, which indicates that it is likely a rubble pile asteroid formed when debris from a collision between its parent body and another asteroid re-accreted gravitationally. It is likely then, that both Remus and Romulus are smaller rubble piles which accreted in orbit around the main body from debris of the same collision. In this case their albedo and density are expected to be similar to Sylvia's ^[2].

Remus' orbit is expected to be quite stable − it lies far inside Sylvia's Hill sphere (about 1/100 of Sylvia's Hill radius), but also far outside the synchronous orbit^[2].

From Remus' surface, Sylvia appears huge, taking up an angular region roughly 30°×18° across, while Romulus' apparent size varies between 1.6° and 0.5° across.

[edit] See also

• Romulus (moon)

[edit] References

1. ^ IAUC 8582, announcing the discovery of S/2004 (87) 1 and naming Romulus and Remus.
2. ^ ^{a b c d e} F. Marchis et al (2005). "Discovery of the triple asteroidal system 87 Sylvia". Nature 436: 822.
3. ^ Assuming the same albedo as Sylvia
4. ^ Assuming same density and albedo as Sylvia
5. ^ Based on a rough tidal locking timescale of several tens of My.

[edit] External links

• Data on (87) Sylvia from Johnston's archive (maintained by W. R. Johnston)
• Rubble-Pile Minor Planet Sylvia and Her Twins (ESO news release, August 2005) Includes images and artists impressions
• IAUC 8582, reporting discovery of S/2004 (87) 1 and naming Romulus and Remus

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