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[[Pluto]] has five known [[Natural satellite|moons]]. |
[[Pluto]] has five known [[Natural satellite|moons]]. In order of discovery they are [[Charon (moon)|Charon]], [[Nix (moon)|Nix]], [[Hydra (moon)|Hydra]], [[S/2011 P 1]] ("P4"),<ref name="NH_P4">{{cite web|url=http://pluto.jhuapl.edu/news_center/news/20110720.php?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+NewHorizonsHeadlines+%28New+Horizons+News+Feed%29|title=Fourth Moon Adds to Pluto's Appeal|accessdate=2011-07-20}}</ref> and [[S/2012 P 1]] (announced in July 2012, and provisionally designated "P5").<ref>{{cite news |url=http://sciencenow.sciencemag.org/cgi/content/full/2006/620/1 |title=Pluto's Twins Get Their Names |first=Govert |last=Schilling |publisher=ScienceNOW Daily News |date=20 June 2006 |accessdate=2006-06-21}}</ref><ref>[http://www.cbat.eps.harvard.edu/iauc/RecentIAUCs.html IAUC 9253]</ref><ref name=FifthMoon>{{cite news|url=http://www.space.com/16531-pluto-fifth-moon-hubble-discovery.html|title=Pluto Has a Fifth Moon, Hubble Telescope Reveals|last=Wall|first=Mike|date=11 July 2012|work=Space.com|accessdate=11 July 2012}}</ref> |
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Charon is much larger than the other four; the ratio of its mass to its primary's mass (that is, Pluto's mass) is higher than for any other moon in the solar system, and it is mutually [[tidally locked]] with Pluto. |
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==History== |
==History== |
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[[File:Plutonian system size.svg|left|thumb|250px|Relative sizes and colors of the components of the Plutonian system.]] |
[[File:Plutonian system size.svg|left|thumb|250px|Relative sizes and colors of the components of the Plutonian system.]] |
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The innermost and largest moon, [[Charon (moon)|Charon]], was discovered by [[James Christy]] on June 22, 1978, nearly half a century after Pluto. Two small outer moons were imaged by the [[Hubble Space Telescope]] Pluto Companion Search Team in May 2005, and [[precovery|precovered]] from Hubble images taken in June 2002. With the orbits confirmed, they have been given definitive names: [[Hydra (moon)|Hydra]] (Pluto III, formerly S/2005 P 1) and [[Nix (moon)|Nix]] (Pluto II, formerly S/2005 P 2). The names were chosen in part because the initials (NH) allude to the ''[[New Horizons]]'' mission.<ref>[http://www.comcast.net/news/science/index.jsp?cat=SCIENCE&fn=/2006/06/22/419501.html comcast.net]</ref> Two |
The innermost and largest moon, [[Charon (moon)|Charon]], was discovered by [[James Christy]] on June 22, 1978, nearly half a century after Pluto itself. Two small outer moons were imaged by the [[Hubble Space Telescope]] Pluto Companion Search Team in May 2005, and [[precovery|precovered]] from Hubble images taken in June 2002. With the orbits confirmed, they have been given definitive names: [[Hydra (moon)|Hydra]] (Pluto III, formerly S/2005 P 1) and [[Nix (moon)|Nix]] (Pluto II, formerly S/2005 P 2). The names were chosen in part because the initials (NH) allude to the ''[[New Horizons]]'' mission.<ref>[http://www.comcast.net/news/science/index.jsp?cat=SCIENCE&fn=/2006/06/22/419501.html comcast.net]</ref> Two more small moons, so far unnamed, were discovered in 2011 and 2012.<ref name="NH_P4" /><ref name=FifthMoon/> The possibility of [[planetary ring|rings]] created by impacts on the smaller moons will be investigated by the ''[[New Horizons]]'' probe. |
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==Characteristics== |
==Characteristics== |
Revision as of 03:56, 26 December 2012
Pluto has five known moons. In order of discovery they are Charon, Nix, Hydra, S/2011 P 1 ("P4"),[1] and S/2012 P 1 (announced in July 2012, and provisionally designated "P5").[2][3][4] Charon is much larger than the other four; the ratio of its mass to its primary's mass (that is, Pluto's mass) is higher than for any other moon in the solar system, and it is mutually tidally locked with Pluto.
History
![](https://upload.wikimedia.org/wikipedia/commons/thumb/d/db/Plutonian_system_size.svg/250px-Plutonian_system_size.svg.png)
The innermost and largest moon, Charon, was discovered by James Christy on June 22, 1978, nearly half a century after Pluto itself. Two small outer moons were imaged by the Hubble Space Telescope Pluto Companion Search Team in May 2005, and precovered from Hubble images taken in June 2002. With the orbits confirmed, they have been given definitive names: Hydra (Pluto III, formerly S/2005 P 1) and Nix (Pluto II, formerly S/2005 P 2). The names were chosen in part because the initials (NH) allude to the New Horizons mission.[5] Two more small moons, so far unnamed, were discovered in 2011 and 2012.[1][4] The possibility of rings created by impacts on the smaller moons will be investigated by the New Horizons probe.
Characteristics
The Plutonian system is highly compact: the five known satellites orbit within the inner 3% of the region where prograde orbits would be stable.
![](https://upload.wikimedia.org/wikipedia/commons/thumb/d/d8/Masses_of_Plutonian_moons.png/250px-Masses_of_Plutonian_moons.png)
Pluto and Charon have been called a double planet because Charon is larger compared to Pluto (half its diameter and an eighth its mass) than any other moon is to a planet or dwarf planet; indeed, Charon is massive enough that, despite their proximity, Pluto orbits the system's barycenter at a point outside its surface.[6] Charon and Pluto are also tidally locked, so that they always present the same face toward each other.
Following Buie and Grundy's recent recalculations taking into account older images, the orbits of the moons are confirmed to be circular and coplanar, with inclinations differing less than 0.4° and eccentricities less than 0.005. The diagram on the left shows the view from the axis of the moons' orbits (declination 0°, right ascension 133°), aligned with the HST diagram above it. As seen from Earth, these circular orbits appear foreshortened into ellipses depending on Pluto's position.[7]
When discovered, Hydra was somewhat brighter than Nix, and therefore thought to be larger by 20%, but follow-up observations found them to be nearly identical. It is likely that the change in brightness is due to the light curve of Hydra, but whether this is due to an irregular shape or to a variation in surface brightness (albedo) is unknown. The diameters of objects can be estimated from their assumed albedos; the estimates above correspond to a 35% albedo like Charon, but the moons could be as large as 130 km if they have the 4% albedo of the darkest KBOs. However, given their color and suspected chemical similarities to Charon, it is likely that their albedos are similar as well and that the diameters are closer to the lower estimates.
Formation and resonances
![](https://upload.wikimedia.org/wikipedia/commons/thumb/2/2f/Creation_of_the_moons_of_Pluto.jpg/250px-Creation_of_the_moons_of_Pluto.jpg)
![](https://upload.wikimedia.org/wikipedia/commons/thumb/3/37/Pluto-Charon_double_planet.png/250px-Pluto-Charon_double_planet.png)
It is suspected that the Plutonian satellite system was created by a massive collision, similar to the "big whack" believed to have created the Earth's Moon.[8][9] In both cases it may be that the high angular momenta of the moons can only be explained by such a scenario. The nearly circular orbits of the smaller moons suggests that they were also formed in this collision, rather than being captured Kuiper Belt objects. This and their near orbital resonances with Charon (see below) suggest that they formed even closer to Pluto than they are at present, and that they migrated outward as Charon achieved its current orbit. If Hydra and Nix turn out to be tidally locked, as Charon is, that will settle the issue, as tidal forces are insufficient to damp their rotations in their present orbits. The color of each is a lunar grey like Charon,[10] which is consistent with a common origin. Their difference in color from Pluto, one of the reddest bodies in the Solar System due to the effects of sunlight on the nitrogen and methane ices of its surface, may be due to a loss of such volatiles during the impact or subsequent coalescence, leaving the surfaces of the moons dominated by water ice. Such an impact would be expected to create additional debris (more moons), but these must be relatively small to have avoided detection by Hubble. It is possible that there are also undiscovered irregular satellites, which are captured Kuiper Belt objects.
S/2012 P 1, Nix, S/2011 P 1 and Hydra form a 1:3:4:5:6 sequence of near resonances with the Charon–Pluto orbital period:[11] S/2012 P 1 is about 5.4% from resonance, Nix is within 2.7% of resonance, S/2011 P 1 is apparently within 0.6%, while Hydra is within 0.3%, though none appear to be in an exact resonance. It may be that these orbits originated as forced resonances when Charon was tidally boosted into its current geosynchronous orbit, and then released from resonance as Charon's orbital eccentricity was tidally damped. Today the Pluto–Charon pair continue to produce strong tidal forces, with the gravitational field at the outer moons varying by 15% peak to peak. At the lower estimated size range, Nix should have no significant precession, while Hydra should have a precession period of 15 years. However, at their maximum projected masses (assuming an albedo of 4%), the two moons may be in a 3:2 orbital resonance with each other, with libration periods of 400 to 450 days, though this may already be ruled out by the low eccentricity of Charon.[12] Thus accurate orbital data can help resolve the sizes of these moons.
However, it was recently calculated that a resonance with Charon could boost either Nix or Hydra into its current orbit, but not both: boosting Hydra would have required a near-zero Charonian eccentricity of 0.024, while boosting Nix would have required a larger eccentricity of at least 0.05. This suggests that Nix and Hydra were instead captured material, formed around Pluto-Charon, and migrated inward until they were trapped in resonance [13]with Charon. The newly found P4 and P5 may be supporting this idea.
Table
The Plutonian moons are listed here by orbital period, from shortest to longest. Moons massive enough for their surfaces to have collapsed into a spheroid are highlighted in light purple. Pluto has been added for comparison, for it orbits a point outside itself.[nb 1]
Name (pronunciation) |
Image | Mean diameter (km) |
Mass (×1021 kg) | Semi-major axis (km) |
Orbital period (days) |
Resonance | Eccentricity | Inclination (to Pluto's equator) |
Magnitude (mean) | Discovery date | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Pluto | ![]() |
2,306 | 13.05 ± 0.07 | 2,035 | 6.387230 | 1:1 | 0.0022 | 0.001° | 15.1 | 1930 | ||
Pluto I | Charon | /ˈʃærən/,[15] /ˈkɛərən/ |
![]() |
1,207 ± 3 | 1.52 ± 0.06 | 17,536 ± 3* | 6.387230 | 1:1 | 0.0022 | 0.001° | 16.8 | 1978 |
Pluto V | S/2012 P 1 | 10–25 | ? | 42,000 ± 2,000[16] | 20.2 ± 0.1[16] | ≈ 1:3 | ≈ 0 | ? | 27 | 2012 | ||
Pluto II | Nix | /ˈnɪks/ | 46–137 | < 0.002 | 48,708 | 24.856 ± 0.001 | ≈ 1:4 | 0.0030 | 0.195° | 23.7 | 2005 | |
Pluto IV | S/2011 P 1 | 13–34 | ? | ≈ 59,000[17] | 32.1[17] | ≈ 1:5 | ≈ 0[17] | ? | 26 | 2011 | ||
Pluto III | Hydra | /ˈhaɪdrə/ | 61–167 | < 0.002 | 64,749 | 38.206 ± 0.001 | ≈ 1:6 | 0.0051 | 0.212° | 23.3 | 2005 |
The maximum distance between the centers of Pluto and Charon is 19,571 ± 4 km.
![](https://upload.wikimedia.org/wikipedia/commons/thumb/3/3d/Pluto_Moons_Orbit_Distance_2012.jpg/1050px-Pluto_Moons_Orbit_Distance_2012.jpg)
Notes
- ^ Satellite data from Buie & Grundy; a, i, e updated with JPL (site updated 2008 Aug 25).
Pluto data from D. R. Williams (September 7, 2006). "Pluto Fact Sheet". NASA. Retrieved 2007-03-24..
Orbital eccentricity and inclination of Pluto and Charon are equal since they refer to the same two-body problem (the gravitational influence of the minor satellites Nix and Hydra is neglected here).
Image of Charon courtesy of Marc W. Buie/Lowell Observatory.[14]
- ^ a b "Fourth Moon Adds to Pluto's Appeal". Retrieved 2011-07-20.
- ^ Schilling, Govert (20 June 2006). "Pluto's Twins Get Their Names". ScienceNOW Daily News. Retrieved 2006-06-21.
- ^ IAUC 9253
- ^ a b Wall, Mike (11 July 2012). "Pluto Has a Fifth Moon, Hubble Telescope Reveals". Space.com. Retrieved 11 July 2012.
- ^ comcast.net
- ^ See "P1P2_motion.avi" (AVI). and barycenter for animations
- ^ "Orbits of 4 Bodies in Pluto System about Barycenter as Seen from Earth". Hubblesite. Retrieved 2006-06-21.
- ^ Canup, R. M. (2005-01-08). "A Giant Impact Origin of Pluto-Charon". Science. 307 (5709): 546–550. Bibcode:2005Sci...307..546C. doi:10.1126/science.1106818. PMID 15681378. Retrieved 2011-07-20.
- ^ Stern, S. A. (2006-02-23). "A giant impact origin for Pluto's small moons and satellite multiplicity in the Kuiper belt" (PDF). Nature. 439 (7079): 946–948. Bibcode:2006Natur.439..946S. doi:10.1038/nature04548. PMID 16495992. Retrieved 2011-07-20.
{{cite journal}}
: Unknown parameter|coauthors=
ignored (|author=
suggested) (help) - ^ "Hubble's Latest Look at Pluto's Moons Supports a Common Birth". Hubblesite. Retrieved 2006-06-21.
- ^ Matson, J. (11 July 2012). "New Moon for Pluto: Hubble Telescope Spots a 5th Plutonian Satellite". Scientific American web site. Retrieved 12 July 2012.
- ^ Lee, Man Hoi (2006). "On the Orbits and Masses of the Satellites of the Pluto–Charon System". arXiv:astro-ph/0603214.
{{cite arXiv}}
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suggested) (help) - ^ Lithwick, Y. (2008). "On the Origin of Pluto's Minor Moons, Nix and Hydra". arXiv:astro-ph/0802.2951.
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ignored (help) - ^ Buie: Mapping the surface of Pluto and Charon
- ^ Many astronomers use this idiosyncratic pronunciation, rather than the classical /ˈkɛərɒn/, but both are acceptable.
- ^ a b Ray Sanders (11 July 2012). "Hubble Space Telescope detects fifth moon of Pluto". Phys.org. Retrieved 11 July 2012.
- ^ a b c Lakdawalla, E. (2011-07-20). "A fourth moon for Pluto". Planetary Society weblog. The Planetary Society. Retrieved 2011-07-20.
{{cite web}}
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References
- S.A. Stern, H.A. Weaver, A.J. Steffl, M.J. Mutchler, W.J. Merline, M.W. Buie, E.F. Young, L.A. Young, & J.R. Spencer (2006), Characteristics and Origin of the Quadruple System at Pluto, Nature, submitted (preprint)
- Steffl A.J., Mutchler M.J., Weaver H.A., Stern S.A., Durda D.D., Terrell D., Merline W.J., Young L.A., Young E.F., Buie M.W., Spencer J.R. (2005), New Constraints on Additional Satellites of the Pluto System, Astronomical Journal, submitted (preprint)
- Buie M.W., Grundy W.M., Young, E.F., Young L.A., Stern S.A. (2005), Orbits and photometry of Pluto's satellites: Charon, S/2005 P1 and S/2005 P2, submitted (preprint)
- IAU Circular No. 8625, describing the discovery of 2005 P1 and P2
- IAU Circular No. 8686, reporting a more neutral color for 2005 P2
- IAU Circular No. 8723 announcing the names of Nix and Hydra
- Background Information Regarding Our Two Newly Discovered Satellites of Pluto – The website of the discoverers of Nix and Hydra