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Caliban (moon)

November 30, 2023

Caliban /ˈkælɪbæn/ is the second-largest retrograde irregular satellite of Uranus.[10] It was discovered on 6 September 1997 by Brett J. Gladman, Philip D. Nicholson, Joseph A. Burns, and John J. Kavelaars using the 200-inch Hale telescope together with Sycorax and given the temporary designation S/1997 U 1.[1]

Caliban
Discovery image of Caliban taken by the Hale Telescope in September 1997
Discovery[1]
Discovered by
Discovery siteHale Telescope at Palomar Obs.
Discovery date6 September 1997
Designations
Designation
Uranus XVI
Pronunciation/ˈkælɪbæn/[2][3]
Named after
Caliban
S/1997 U 2
AdjectivesCalibanian /kælɪˈbniən/[4]
Orbital characteristics[5]
Epoch 27 June 2015 (JD 2457200.5)
Observation arc17.96 yr (6,559 d)
7,163,810 km (0.0478871 AU)
Eccentricity0.0771431
1.59 yr (579.26 d)
294.66253°
0° 37m 17.345s / day
Inclination139.90814° (to the ecliptic)
140.878° (to local Laplace plane)[6]
175.21248°
342.53671°
Satellite ofUranus
Physical characteristics
Mean diameter
42+20
−12 km[7]
Mass~2.5×1017 kg (estimate)[8]
Mean density
~1.3 g/cm3 (assumed)[8]
9.948±0.019 hr (double-peaked)[7]
2.66±0.04 hr (single-peaked)[9]
Albedo0.22+0.20
−0.12[7]
Temperature~65 K (mean estimate)
22.0 (V)[7]
9.160±0.016[7]
9.0[5]

Designated Uranus XVI, it was named after the monster character in William Shakespeare's play The Tempest.

Orbit edit

 
Animation of Caliban's orbit around Uranus.
   Uranus  ·    Sycorax ·    Francisco  ·    Caliban  ·    Stephano  ·    Trinculo

Caliban follows a distant orbit, more than 10 times further from Uranus than the furthest regular moon Oberon.[1] Its orbit is retrograde, moderately inclined and slightly eccentric. The orbital parameters suggest that it may belong to the same dynamic cluster as Stephano and Francisco, suggesting common origin.[11]

 
Retrograde irregular satellites of Uranus

The diagram illustrates the orbital parameters of the retrograde irregular satellites of Uranus (in polar co-ordinates) with the eccentricity of the orbits represented by the segments extending from the pericentre to the apocentre.

Physical characteristics edit

Caliban's diameter is estimated to be around 42 km, based on thermal measurements by the Herschel Space Observatory.[7] Its albedo is estimated at around 0.22, which is unusually high compared to those of other Uranian irregular satellites. Neptune's largest irregular satellite, Nereid, has a similarly high albedo as Caliban.[7]

Somewhat inconsistent reports put Caliban in light-red category (B–V = 0.83 V–R = 0.52,[12] B–V = 0.84 ± 0.03 V–R = 0.57 ± 0.03[11]), redder than Himalia but still less red than most Kuiper belt objects. Caliban may be slightly redder than Sycorax.[9] It also absorbs light at 0.7 μm, and one group of astronomers think this may be a result of liquid water that modified the surface.[13]

Measurements of Caliban's light curve by the Kepler space telescope indicate that its rotation period is about 9.9 hours.[7]

Origin edit

Caliban is hypothesized to be a captured object: it did not form in the accretionary disk that existed around Uranus just after its formation. The exact capture mechanism is not known, but capturing a moon requires the dissipation of energy. The possible capture processes include: gas drag in the protoplanetary disk, many body interactions and the capture during the fast growth of the Uranus' mass (so-called "pull-down").[10][11]

See also edit

References edit

  1. ^ a b c Gladman Nicholson et al. 1998.
  2. ^ "Caliban". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  3. ^ Benjamin Smith (1903) The Century Dictionary and Cyclopedia
  4. ^ Apple, Au, & Gandin (2009) The Routledge international handbook of critical education
  5. ^ a b "M.P.C. 95215" (PDF). Minor Planet Circular. Minor Planet Center. 29 August 2015.
  6. ^ Brozovic, M.; Jacobson, R. A. (2009). "Planetary Satellite Mean Orbital Parameters". The Orbits of the Outer Uranian Satellites, Astronomical Journal, 137, 3834. JPL/NASA. Retrieved 2011-11-06.
  7. ^ a b c d e f g h Farkas-Takács, A.; Kiss, Cs.; Pál, A.; Molnár, L.; Szabó, Gy. M.; Hanyecz, O.; et al. (September 2017). "Properties of the Irregular Satellite System around Uranus Inferred from K2, Herschel, and Spitzer Observations". The Astronomical Journal. 154 (3): 13. arXiv:1706.06837. Bibcode:2017AJ....154..119F. doi:10.3847/1538-3881/aa8365. S2CID 118869078. 119.
  8. ^ a b "Planetary Satellite Physical Parameters". JPL (Solar System Dynamics). 20 December 2008. Retrieved 10 March 2009.
  9. ^ a b Maris, Michele; Carraro, Giovanni; Cremonese, Gabrielle; Fulle, Marco (May 2001). "Multicolor Photometry of the Uranus Irregular Satellites Sycorax and Caliban". The Astronomical Journal. 121 (5): 2800–2803. arXiv:astro-ph/0101493. Bibcode:2001AJ....121.2800M. doi:10.1086/320378. S2CID 16273706.
  10. ^ a b Sheppard, Jewitt & Kleyna 2005.
  11. ^ a b c Grav, Holman & Fraser 2004.
  12. ^ Rettig, Walsh & Consolmagno 2001.
  13. ^ Schmude, Richard (2008). Uranus, Neptune, Pluto and How to Observe Them. Springer. ISBN 978-0-387-76601-0.

External links edit

  • by NASA's Solar System Exploration
  • David Jewiit pages
  • Uranus' Known Satellites (by Scott S. Sheppard)
  • MPC: Natural Satellites Ephemeris Service
  • Caliban and Sycorax, Moons of Uranus (2005 Calvin J. Hamilton)

November 30, 2023
caliban, moon, caliban, second, largest, retrograde, irregular, satellite, uranus, discovered, september, 1997, brett, gladman, philip, nicholson, joseph, burns, john, kavelaars, using, inch, hale, telescope, together, with, sycorax, given, temporary, designat. Caliban ˈ k ae l ɪ b ae n is the second largest retrograde irregular satellite of Uranus 10 It was discovered on 6 September 1997 by Brett J Gladman Philip D Nicholson Joseph A Burns and John J Kavelaars using the 200 inch Hale telescope together with Sycorax and given the temporary designation S 1997 U 1 1 CalibanDiscovery image of Caliban taken by the Hale Telescope in September 1997Discovery 1 Discovered byPhilip D Nicholson Brett J Gladman Joseph A Burns John J KavelaarsDiscovery siteHale Telescope at Palomar Obs Discovery date6 September 1997DesignationsDesignationUranus XVIPronunciation ˈ k ae l ɪ b ae n 2 3 Named afterCalibanAlternative namesS 1997 U 2AdjectivesCalibanian k ae l ɪ ˈ b eɪ n i e n 4 Orbital characteristics 5 Epoch 27 June 2015 JD 2457200 5 Observation arc17 96 yr 6 559 d Semi major axis7 163 810 km 0 0478871 AU Eccentricity0 0771431Orbital period sidereal 1 59 yr 579 26 d Mean anomaly294 66253 Mean motion0 37m 17 345s dayInclination139 90814 to the ecliptic 140 878 to local Laplace plane 6 Longitude of ascending node175 21248 Argument of perihelion342 53671 Satellite ofUranusPhysical characteristicsMean diameter42 20 12 km 7 Mass 2 5 1017 kg estimate 8 Mean density 1 3 g cm3 assumed 8 Synodic rotation period9 948 0 019 hr double peaked 7 2 66 0 04 hr single peaked 9 Albedo0 22 0 20 0 12 7 Temperature 65 K mean estimate Apparent magnitude22 0 V 7 Absolute magnitude H 9 160 0 016 7 9 0 5 Designated Uranus XVI it was named after the monster character in William Shakespeare s play The Tempest Contents 1 Orbit 2 Physical characteristics 3 Origin 4 See also 5 References 6 External linksOrbit edit nbsp Animation of Caliban s orbit around Uranus Uranus Sycorax Francisco Caliban Stephano TrinculoCaliban follows a distant orbit more than 10 times further from Uranus than the furthest regular moon Oberon 1 Its orbit is retrograde moderately inclined and slightly eccentric The orbital parameters suggest that it may belong to the same dynamic cluster as Stephano and Francisco suggesting common origin 11 nbsp Retrograde irregular satellites of UranusThe diagram illustrates the orbital parameters of the retrograde irregular satellites of Uranus in polar co ordinates with the eccentricity of the orbits represented by the segments extending from the pericentre to the apocentre Physical characteristics editCaliban s diameter is estimated to be around 42 km based on thermal measurements by the Herschel Space Observatory 7 Its albedo is estimated at around 0 22 which is unusually high compared to those of other Uranian irregular satellites Neptune s largest irregular satellite Nereid has a similarly high albedo as Caliban 7 Somewhat inconsistent reports put Caliban in light red category B V 0 83 V R 0 52 12 B V 0 84 0 03 V R 0 57 0 03 11 redder than Himalia but still less red than most Kuiper belt objects Caliban may be slightly redder than Sycorax 9 It also absorbs light at 0 7 mm and one group of astronomers think this may be a result of liquid water that modified the surface 13 Measurements of Caliban s light curve by the Kepler space telescope indicate that its rotation period is about 9 9 hours 7 Origin editCaliban is hypothesized to be a captured object it did not form in the accretionary disk that existed around Uranus just after its formation The exact capture mechanism is not known but capturing a moon requires the dissipation of energy The possible capture processes include gas drag in the protoplanetary disk many body interactions and the capture during the fast growth of the Uranus mass so called pull down 10 11 See also editMoons of UranusReferences edit a b c Gladman Nicholson et al 1998 Caliban Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required Benjamin Smith 1903 The Century Dictionary and Cyclopedia Apple Au amp Gandin 2009 The Routledge international handbook of critical education a b M P C 95215 PDF Minor Planet Circular Minor Planet Center 29 August 2015 Brozovic M Jacobson R A 2009 Planetary Satellite Mean Orbital Parameters The Orbits of the Outer Uranian Satellites Astronomical Journal 137 3834 JPL NASA Retrieved 2011 11 06 a b c d e f g h Farkas Takacs A Kiss Cs Pal A Molnar L Szabo Gy M Hanyecz O et al September 2017 Properties of the Irregular Satellite System around Uranus Inferred from K2 Herschel and Spitzer Observations The Astronomical Journal 154 3 13 arXiv 1706 06837 Bibcode 2017AJ 154 119F doi 10 3847 1538 3881 aa8365 S2CID 118869078 119 a b Planetary Satellite Physical Parameters JPL Solar System Dynamics 20 December 2008 Retrieved 10 March 2009 a b Maris Michele Carraro Giovanni Cremonese Gabrielle Fulle Marco May 2001 Multicolor Photometry of the Uranus Irregular Satellites Sycorax and Caliban The Astronomical Journal 121 5 2800 2803 arXiv astro ph 0101493 Bibcode 2001AJ 121 2800M doi 10 1086 320378 S2CID 16273706 a b Sheppard Jewitt amp Kleyna 2005 a b c Grav Holman amp Fraser 2004 Rettig Walsh amp Consolmagno 2001 Schmude Richard 2008 Uranus Neptune Pluto and How to Observe Them Springer ISBN 978 0 387 76601 0 Gladman B J Nicholson P D Burns J A Kavelaars J J Marsden B G Williams G V Offutt W B 1998 Discovery of two distant irregular moons of Uranus Nature 392 6679 897 899 Bibcode 1998Natur 392 897G doi 10 1038 31890 S2CID 4315601 Grav Tommy Holman Matthew J Fraser Wesley C 2004 09 20 Photometry of Irregular Satellites of Uranus and Neptune The Astrophysical Journal 613 1 L77 L80 arXiv astro ph 0405605 Bibcode 2004ApJ 613L 77G doi 10 1086 424997 S2CID 15706906 Rettig T W Walsh K Consolmagno G December 2001 Implied Evolutionary Differences of the Jovian Irregular Satellites from a BVR Color Survey Icarus 154 2 313 320 Bibcode 2001Icar 154 313R doi 10 1006 icar 2001 6715 Sheppard S S Jewitt D Kleyna J 2005 An Ultradeep Survey for Irregular Satellites of Uranus Limits to Completeness The Astronomical Journal 129 1 518 525 arXiv astro ph 0410059 Bibcode 2005AJ 129 518S doi 10 1086 426329 S2CID 18688556 External links editCaliban Profile by NASA s Solar System Exploration David Jewiit pages Uranus Known Satellites by Scott S Sheppard MPC Natural Satellites Ephemeris Service Caliban and Sycorax Moons of Uranus 2005 Calvin J Hamilton Retrieved from https en wikipedia org w index php title Caliban moon amp oldid 1186836955, wikipedia, wiki, book, books, library,

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