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Epimetheus /ɛpəˈmθəs/ is an inner satellite of Saturn. It is also known as Saturn XI. It is named after the mythological Epimetheus, brother of Prometheus.

Epimetheus
South pole of Epimetheus imaged by Cassini on 3 December 2007
Discovery
Discovered byRichard Walker
Discovery date18 December 1966
Designations
Designation
Saturn XI
Pronunciation/ɛpəˈmθəs/[1]
Named after
Ἐπιμηθεύς Epimētheus
AdjectivesEpimethean /ɛpəˈmθən/[2]
Orbital characteristics[3]
Epoch 31 December 2003 (JD 2453005.5)
151410±10 km
Eccentricity0.0098
0.694333517 d
Inclination0.351°±0.004° to Saturn's equator
Satellite ofSaturn
GroupCo-orbital with Janus
Physical characteristics
Dimensions129.6 × 116.2 × 107.0 km
(± 0.6 × 0.4 × 0.4 km)[4]: 2 
117.2±0.6 km[4]: 2 
Volume843290±2000 km3[5]: 4 
Mass(5.25607±0.00081)×1017 kg[a]
Mean density
0.6233±0.0015 g/cm3[5]: 4 
0.0066–0.0109 m/s2[4]: 3 
0.033 km/s at longest axis
to 0.036 km/s at poles
synchronous
zero
Albedo0.73±0.03 (geometric) [6]
Temperature≈ 78 K

Discovery

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Epimetheus

Epimetheus occupies essentially the same orbit as the moon Janus. Astronomers originally assumed that there was only one body in that orbit, disbelieving that two moons could share nearly identical orbits without eventually colliding.[7] Thus, there was difficulty in determining their orbital characteristics. Observations were photographic and spaced widely apart in time, so that while the presence of two objects was not obvious, the observations were difficult to reconcile with a reasonable orbit.[8]

Audouin Dollfus observed a moon on 15 December 1966,[9] which he proposed to be named "Janus".[10] On 18 December, Richard Walker made a similar observation which is now credited as the discovery of Epimetheus.[11] However, at the time, it was believed that there was only one moon, unofficially known as "Janus", in the given orbit.[7]

Twelve years later, in October 1978, Stephen M. Larson and John W. Fountain realised that the 1966 observations were best explained by two distinct objects (Janus and Epimetheus) sharing very similar orbits.[12] This was confirmed in 1980 by Voyager 1,[13] and so Larson and Fountain officially share the discovery of Epimetheus with Walker.[7] A moon that was probably Epimetheus appeared in two Pioneer 11 images and was designated 1979S1, there is uncertainty though because the two images were not enough to allow a reliable orbit to be calculated.[14]

Epimetheus received its name in 1983.[b] The name Janus was approved by the IAU at the same time, although the name had been used informally since Dollfus proposed it shortly after the 1966 discovery.[7]

Orbit

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Epimetheus (lower left) and Janus (right) seen on 20 March 2006, two months after swapping orbits. The two moons appear close only because of foreshortening; in reality, Janus is about 40,000 km farther from Cassini than Epimetheus.
 
Rotating-frame depiction of the horseshoe orbits of Janus and Epimetheus
 
Animation of Epimetheus's orbit – Rotating reference frame
   Saturn ·    Janus  ·   Epimetheus

Epimetheus's orbit is co-orbital with that of Janus. Janus's mean orbital radius from Saturn is, as of 2006 (as shown by the green color in the adjacent picture), only 50 km less than that of Epimetheus, a distance smaller than either moon's mean radius. In accordance with Kepler's laws of planetary motion, the closer orbit is completed more quickly. Because of the small difference, it is completed in only about 30 seconds less. Each day, the inner moon is an additional 0.25° farther around Saturn than the outer moon. As the inner moon catches up to the outer moon, their mutual gravitational attraction increases the inner moon's momentum and decreases that of the outer moon. This added momentum means that the inner moon's distance from Saturn and orbital period are increased, and the outer moon's are decreased. The timing and magnitude of the momentum exchange is such that the moons effectively swap orbits, never approaching closer than about 10,000 km. At each encounter Janus's orbital radius changes by ~20 km and Epimetheus's by ~80 km: Janus's orbit is less affected because it is four times more massive than Epimetheus. The exchange takes place approximately every four years; the last close approaches occurred in January 2006,[15] 2010, 2014, and 2018. This is the only such orbital configuration of moons known in the Solar System[16] (Though asteroids are known to participate in horseshoe orbits).

The orbital relationship between Janus and Epimetheus can be understood in terms of the circular restricted three-body problem, as a case in which the two moons (the third body being Saturn) are similar in size to each other.[17]

Physical characteristics

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There are several Epimethean craters larger than 30 km in diameter, as well as both large and small ridges and grooves. The extensive cratering indicates that Epimetheus must be quite old. Janus and Epimetheus may have formed from a disruption of a single parent to form co-orbital satellites, but if this is the case the disruption must have happened early in the history of the satellite system. From its very low density and relatively high albedo, it seems likely that Epimetheus is a very porous icy body.[7] There is considerable uncertainty in these values, however, and so this remains to be confirmed.[citation needed]

The south pole is dominated by a large, flat basin with a central peak that covers much of the moon's southern hemisphere, which may be the remains of a large impact crater.[7]

There appear to be two terrain types: darker, smoother areas, and brighter, slightly more yellowish, fractured terrain. One interpretation is that the darker material evidently moves down slopes, and probably has a lower ice content than the brighter material, which appears more like "bedrock". Nonetheless, materials in both terrains are likely to be rich in water ice.[18]

Features

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Craters on Epimetheus, like those on Janus, are named after characters in the legend of Castor and Pollux.[19]

Named Epimethean craters
Name Pronunciation Latin or Greek
Hilaeira /hɪlˈɪərə/ Ἱλάειρα
Pollux /ˈpɒləks/ Pollūx

The first has been misspelled 'Hilairea' at USGS, which would presumably be pronounced /hɪˈlɛəriə/.

Interactions with rings

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A faint dust ring is present around the region occupied by the orbits of Epimetheus and Janus, as revealed by images taken in forward-scattered light by the Cassini spacecraft in 2006. The ring has a radial extent of about 5000 km.[20] Its source are particles blasted off their surfaces by meteoroid impacts, which then form a diffuse ring around their orbital paths.[21][22]

Along with Janus, Epimetheus acts as a shepherd moon, maintaining the sharp outer edge of the A Ring in a 7:6 orbital resonance. The effect is more obvious when the more massive Janus is on the resonant (inner) orbit.[16]

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Notes

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  1. ^ Calculated from the standard gravitational parameter GM = (3.50806±0.00054)×10−2 km3·s–2 given by Lainey et al. (2023), divided by the gravitational constant G = 6.6743×10−2 km3·kg–1·s–2.[5]
  2. ^ Transactions of the International Astronomical Union, Vol. XVIIIA, 1982 (confirms Janus, names Epimetheus, Telesto, Calypso) (mentioned in IAUC 3872: Satellites of Jupiter and Saturn 1983 September 30)

References

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Citations

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  1. ^ Epimetheus. Charlton T. Lewis and Charles Short. A Latin Dictionary on Perseus Project.
  2. ^ NASA (2005 March 28) Epimethean Profile
  3. ^ Spitale Jacobson et al. 2006.
  4. ^ a b c Thomas & Helfenstein 2020.
  5. ^ a b c Lainey et al. 2023.
  6. ^ Verbiscer French et al. 2007.
  7. ^ a b c d e f JPL/NASA: Epimetheus.
  8. ^ Phys.org.
  9. ^ IAUC 1987.
  10. ^ IAUC 1995.
  11. ^ IAUC 1991.
  12. ^ Fountain & Larson 1978.
  13. ^ Leverington 2003, p. 454.
  14. ^ Ulivi, Paolo; Harland, David M (2007). Robotic Exploration of the Solar System Part I: The Golden Age 1957–1982. Springer. p. 150. ISBN 9780387493268.
  15. ^ JPL/NASA: The Dancing Moons.
  16. ^ a b El Moutamid et al 2015.
  17. ^ Llibre and Ollé 2011.
  18. ^ JPL/NASA: Epimetheus Revealed.
  19. ^ USGS: Epimetheus nomenclature
  20. ^ JPL/NASA: Moon-Made Rings.
  21. ^ Williams et al. 2011.
  22. ^ JPL/NASA: Creating New Rings.

Sources

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Public Domain  This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

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