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Galatea (moon)

From Wikipedia, the free encyclopedia
For the asteroid, see 74 Galatea.
Galatea
Galatea as seen by Voyager 2 (elongation is due to smearing)
Discovery
Discovered byStephen P. Synnott[1] and Voyager Imaging Team
Discovery dateJuly 1989
Designations
Designation
Neptune VI
Pronunciation/ɡæləˈtə/[2]
Named after
Γαλάτεια Galateia
AdjectivesGalatean[3]
Orbital characteristics[4][5]
Epoch 18 August 1989
61952.57 km
Eccentricity0.00022 ± 0.00008
0.42874431 ± 0.00000001 d
Inclination
  • 0.052 ± 0.011° (to Neptune equator)
  • 0.06° (to local Laplace plane)
Satellite ofNeptune
Groupring shepherd
Physical characteristics
Dimensions(204±10) × (184±16) × (144±8) km[6]
88±4 km[6]
Volume~2.8×106 km3[a]
Mass1.94×1018 kg[8]
Mean density
~0.69 g/cm3[b]
~0.012–0.025 m/s2[c]
~0.05–0.06 km/s[d]
synchronous
zero
Albedo0.08[6][9]
Temperature~51 K mean (estimate)
21.9[9]

Galatea /ɡæləˈtə/, also known as Neptune VI, is the fourth-closest inner moon of Neptune, and fifth-largest moon of Neptune. It is named after Galatea, one of the fifty Nereids of Greek legend, with whom Cyclops Polyphemus was vainly in love.

Discovery

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Galatea inside of a faint ring arc near Neptune

Galatea was discovered in late July 1989 from the images taken by the Voyager 2 probe. It was given the temporary designation S/1989 N 4.[10] The discovery was announced (IAUC 4824) on 2 August 1989, and mentions "10 frames taken over 5 days", implying a discovery date of sometime before July 28. The name was given on 16 September 1991.[11]

Physical properties

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Galatea is irregularly shaped and shows no sign of any geological modification. It is likely that it is a rubble pile re-accreted from fragments of Neptune"s original satellites, which were smashed up by perturbations from Triton soon after that moon"s capture into a very eccentric initial orbit.[12]

Compositionally, Galatea appears to be similar to other small inner Neptunian satellites, with a deep 3.0 micron feature attributed to water ice or hydrated silicate minerals. It has a 0.08 albedo at 1.4 and 2.0 microns, dropping to 0.04 at 3.0 microns, and increasing to 0.12 at 4.6 microns.[13]

Orbit

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Galatea"s orbit lies below Neptune"s synchronous orbit radius, so it is slowly spiralling inward due to tidal deceleration and may eventually impact the planet or break up into a new planetary ring system upon passing its Roche limit due to tidal stretching.

Galatea appears to be a shepherd moon for the Adams ring that is 1,000 kilometres (620 mi) outside its orbit. Resonances with Galatea in the ratio 42:43 are also considered the most likely mechanism for confining the unique ring arcs that exist in this ring.[14] Galatea"s mass has been estimated based on the radial perturbations it induces on the ring.[15][7]

Notes

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  1. ^ Volume derived from the long axis A, the medium axis B and the short axis C:
  2. ^ Density derived from mass m and the volume V:
  3. ^ Surface gravity derived from the mass m, the gravitational constant G and the radius r:
  4. ^ Escape velocity derived from the mass m, the gravitational constant G and the radius r:

Since Galatea is irregularly shaped, the actual surface gravity and escape velocity will vary significantly between different positions on the surface.

References

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  1. ^ Planet Neptune Data http://www.princeton.edu/~willman/planetary_systems/Sol/Neptune/
  2. ^ "galatea". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  3. ^ AMIA (1999), Transforming health care through informatics
  4. ^ Jacobson, R. A.; Owen, W. M. Jr. (2004). "The orbits of the inner Neptunian satellites from Voyager, Earthbased, and Hubble Space Telescope observations". Astronomical Journal. 128 (3): 1412–1417. Bibcode:2004AJ....128.1412J. doi:10.1086/423037.1412-1417&rft.date=2004&rft_id=info:doi/10.1086/423037&rft_id=info:bibcode/2004AJ....128.1412J&rft.aulast=Jacobson&rft.aufirst=R.+A.&rft.au=Owen,+W.+M.+Jr.&rft_id=https://doi.org/10.1086%2F423037&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  5. ^ Showalter, M. R.; de Pater, I.; Lissauer, J. J.; French, R. S. (2019). "The seventh inner moon of Neptune" (PDF). Nature. 566 (7744): 350–353. Bibcode:2019Natur.566..350S. doi:10.1038/s41586-019-0909-9. PMC 6424524. PMID 30787452.350-353&rft.date=2019&rft_id=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6424524#id-name=PMC&rft_id=info:pmid/30787452&rft_id=info:doi/10.1038/s41586-019-0909-9&rft_id=info:bibcode/2019Natur.566..350S&rft.aulast=Showalter&rft.aufirst=M.+R.&rft.au=de+Pater,+I.&rft.au=Lissauer,+J.+J.&rft.au=French,+R.+S.&rft_id=https://www.spacetelescope.org/static/archives/releases/science_papers/heic1904/heic1904a.pdf&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  6. ^ a b c Karkoschka, Erich (2003). "Sizes, shapes, and albedos of the inner satellites of Neptune". Icarus. 162 (2): 400–407. Bibcode:2003Icar..162..400K. doi:10.1016/S0019-1035(03)00002-2.400-407&rft.date=2003&rft_id=info:doi/10.1016/S0019-1035(03)00002-2&rft_id=info:bibcode/2003Icar..162..400K&rft.aulast=Karkoschka&rft.aufirst=Erich&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  7. ^ a b Madeira, Gustavo; Winter, Silvia Maria Giuliatti (2022-04-21). "Numerical analysis of processes for the formation of moonlets confining the arcs of Neptune". Monthly Notices of the Royal Astronomical Society. 513 (1): 297–309. arXiv:2204.01063. doi:10.1093/mnras/stac944. ISSN 0035-8711.297-309&rft.date=2022-04-21&rft_id=info:arxiv/2204.01063&rft.issn=0035-8711&rft_id=info:doi/10.1093/mnras/stac944&rft.aulast=Madeira&rft.aufirst=Gustavo&rft.au=Winter,+Silvia+Maria+Giuliatti&rft_id=https://doi.org/10.1093%2Fmnras%2Fstac944&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  8. ^ Giuliatti Winter et al. (2020), as cited in Madeira & Giuliatti Winter (2022).[7]
  9. ^ a b "Planetary Satellite Physical Parameters". JPL (Solar System Dynamics). 2008-10-24. Archived from the original on 2013-11-01. Retrieved 2008-12-13.
  10. ^ Marsden, Brian G. (August 2, 1989). "Satellites of Neptune". IAU Circular. 4824. Retrieved 2011-10-26.
  11. ^ Marsden, Brian G. (September 16, 1991). "Satellites of Saturn and Neptune". IAU Circular. 5347. Retrieved 2011-10-26.
  12. ^ Banfield, Don; Murray, Norm (October 1992). "A dynamical history of the inner Neptunian satellites". Icarus. 99 (2): 390–401. Bibcode:1992Icar...99..390B. doi:10.1016/0019-1035(92)90155-Z.390-401&rft.date=1992-10&rft_id=info:doi/10.1016/0019-1035(92)90155-Z&rft_id=info:bibcode/1992Icar...99..390B&rft.aulast=Banfield&rft.aufirst=Don&rft.au=Murray,+Norm&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  13. ^ Belyakov, Matthew; Davis, M. Ryleigh; Milby, Zachariah; Wong, Ian; Brown, Michael E. (2024-05-01). "JWST Spectrophotometry of the Small Satellites of Uranus and Neptune". The Planetary Science Journal. 5 (5): 119. arXiv:2404.06660. Bibcode:2024PSJ.....5..119B. doi:10.3847/PSJ/ad3d55. ISSN 2632-3338.
  14. ^ Namouni, F.; Porco, C. (2002). "The confinement of Neptune"s ring arcs by the moon Galatea". Nature. 417 (6884): 45–7. Bibcode:2002Natur.417...45N. doi:10.1038/417045a. PMID 11986660. S2CID 4430322.45-7&rft.date=2002&rft_id=info:doi/10.1038/417045a&rft_id=https://api.semanticscholar.org/CorpusID:4430322#id-name=S2CID&rft_id=info:pmid/11986660&rft_id=info:bibcode/2002Natur.417...45N&rft.aulast=Namouni&rft.aufirst=F.&rft.au=Porco,+C.&rft_id=http://www.nature.com/cgi-taf/DynaPage.taf?file=/nature/journal/v417/n6884/abs/417045a_fs.html&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
  15. ^ Porco, C.C. (1991). "An Explanation for Neptune"s Ring Arcs". Science. 253 (5023): 995–1001. Bibcode:1991Sci...253..995P. doi:10.1126/science.253.5023.995. PMID 17775342. S2CID 742763.995-1001&rft.date=1991&rft_id=info:doi/10.1126/science.253.5023.995&rft_id=https://api.semanticscholar.org/CorpusID:742763#id-name=S2CID&rft_id=info:pmid/17775342&rft_id=info:bibcode/1991Sci...253..995P&rft.aulast=Porco&rft.aufirst=C.C.&rfr_id=info:sid/en.wikipedia.org:Galatea+(moon)" class="Z3988">
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