Trinculo (moon)

Trinculo
Very Large Telescope image of Trinculo (circled) next to a bright background star on 3 September 2002
Discovery[1][2][3]
Discovered by
Discovery siteCerro Tololo Obs.
Discovery date13 August 2001
Designations
Designation
Uranus XXI
Pronunciation/ˈtrɪŋkjʊl/[4][5]
Named after
Trinculo (The Tempest character)
S/2001 U 1
Orbital characteristics[6]
Epoch 1 January 2020 (JD 2458849.5)
Satellite ofUranus
Proper orbital elements
8,502,600 km (0.056836 AUAU
0.220
167.1° (to ecliptic)
175.554072 deg / yr
2.05065 yr
(749 d)
Precession of perihelion
500.579374 arcsec / yr
Precession of the ascending node
303.868699 arcsec / yr
Physical characteristics
12–19 km[a]
18 km[8][9]
Albedo>0.03[10]: 7 
Spectral type
  • B–V = 1.09±0.40[11]: L78 
  • V–R = 0.35±0.19[11]: L78 
25.4 (average)[9]
12.7[12]
11.92±0.18[11]: L78 

Trinculo, also known as Uranus XXI and previously as S/2001 U 1, is a small irregular satellite or moon of Uranus, orbiting in the retrograde direction. It was discovered on 13 August 2001 by Matthew J. Holman, John J. Kavelaars, and Dan Milisavljevic using the 4.0-meter Víctor M. Blanco Telescope at Cerro Tololo Observatory, Chile. It was named after Trinculo, a jester from William Shakespeare's play The Tempest. Trinculo orbits Uranus at an average distance of 8.5 million km (5.3 million mi) and takes about 749 Earth days (2.1 Earth years) to complete one orbit. Trinculo is estimated to be about 18 km (11 mi) in diameter and its surface might be dark and gray in color.

Discovery

Trinculo was discovered on 13 August 2001 by a group of astronomers consisting of Matthew J. Holman, John J. Kavelaars, and Dan Milisavljevic, who at the time were searching for distant moons of Uranus.[13][14] Trinculo was the sixth irregular moon discovered around Uranus.[15] The discovery observations were made at Cerro Tololo Observatory, Chile,[1] using the 4.0-m Víctor M. Blanco Telescope equipped with a wide-field camera.[14]: 475  The group discovered Trinculo and three other Uranian irregular moons (Francisco, Ferdinand, and Margaret[b]) in the telescope images by using a computer algorithm that followed the motion of Uranus and then combined the images to enhance the faint moons—a technique known as shift-and-adding.[14]: 477  Later images obtained by Kavelaars using the Canada–France–Hawaii Telescope on 25 August 2001 confirmed that Trinculo was orbiting Uranus.[16]

To determine the orbit of Trinculo, the group continued observing the moon from different observatories, including the 200-inch Hale Telescope at Palomar Observatory and 8.2-m Very Large Telescope (VLT) at Paranal Observatory.[1][14]: 477  Brian G. Marsden, director of the Minor Planet Center, helped compute the orbit of Trinculo and provided predictions for its location in 2002.[16] Marsden's predictions allowed Gladman to identify a Uranian moon candidate detected in VLT images taken by Philippe Rousselot and Olivier Mousis on 5 September 2002, which was then confirmed to be Trinculo after Gladman and Tommy Grav investigated images taken earlier by the Blanco telescope on 13 August 2002.[16] The Minor Planet Center announced the discovery of Trinculo on 30 September 2003.[1]

Name

When the discovery of Trinculo was announced, it was given the temporary provisional designation S/2001 U 1 by the Minor Planet Center.[1] It was later named and given the Roman numeral designation Uranus XXI by the International Astronomical Union's Working Group for Planetary System Nomenclature on 29 December 2005.[17] The moon was named after the drunken jester Trinculo from William Shakespeare's play, The Tempest.[8][3]

Orbit

Trinculo is an irregular moon of Uranus, which have very wide, elliptical, and inclined orbits in contrast to the regular moons of Uranus.[18]: 1  Irregular moons like Trinculo are thought to be former asteroids that were captured by their planet during the Solar System's formation.[14]: 474  The Uranian irregular moons are loosely bound by Uranus's gravity because of their great distance from the planet, so their orbits are frequently perturbed by the gravity of the Sun and other planets.[18]: 2  This results in significant changes in the orbits of irregular moons over short periods of time, so a simple Keplerian elliptical orbit cannot accurately describe the long-term orbital motions of irregular moons. Instead, proper or mean orbital elements are used to describe the long-term orbits of irregular moons more accurately, since these are calculated by averaging out the perturbed orbit over a long period of time.[18]: 4 

Over a 10,000-year time period, Trinculo's average semi-major axis or orbital distance from Uranus is 8.05 million km (5.00 million mi; 0.0538 AU), with an average orbital period of 2.05 years (749 d).[6][19]: 11  Trinculo has an average orbital eccentricity of 0.22 and an average inclination of 167° with respect to the ecliptic, or the plane of Earth's orbit.[6][18]: 7  Since Trinculo's orbital inclination is greater than 90°, the moon has a retrograde orbit, meaning it orbits in the opposite direction of Uranus' orbit around the Sun.[8] Trinculo's orbital elements fluctuate over time due to perturbations: its semi-major axis varies by up to ±12,200 km (7,600 mi), eccentricity varies by ±0.02, and inclination varies by ±1°.[19]: 11  Trinculo's orbit exhibits nodal and apsidal precession with average periods of several thousand Earth years.[c]

The eccentric orbits of Trinculo and other Uranian irregular moons overlap in distance, which leads to the possibility of Trinculo passing close to another irregular moon.[18]: 11  Orbit simulations performed by Marina Brozović and Robert Jacobson in 2022 found that Trinculo had approached Sycorax within several tens of thousands of kilometers 9,700 years ago.[18]: 11  Trinculo is not known to be part of a collisional family or group; its orbit is apparently unique among the known Uranian irregular moons.[11]: L79–L80 [19]: 2  If there is a collisional family associated with Trinculo, then any Uranian irregular moons related to it are likely undiscovered because they are presumably small and faint.[19]: 15 

  • Animation of Trinculo's orbit (green) around Uranus.
       Uranus  ·   Sycorax ·   Francisco ·    Caliban  ·    Stephano  ·    Trinculo
  • Irregular satellites of all four giant planets, plotted by average distance from their planet (semi-major axis in Hill radii) and orbital inclination (in degrees wrt ecliptic). Data as of February 2024.

Physical characteristics

Trinculo is very faint with an average apparent magnitude of 25.4,[9] so it could only be observed with long-exposure imaging by large-aperture telescopes.[13][15][14] Trinculo is expected to have a dark surface[8] composed of water ice, hydrated silicates, and organic compounds, similar to other irregular moons.[20]: 6  Observations by the Herschel space telescope did not find any significant infrared thermal emission coming from Trinculo, indicating the moon must have a geometric albedo higher than 0.03 and a diameter smaller than 50 km (31 mi).[10]: 7  Assuming an absolute magnitude of 12.7[12] and a generic irregular moon geometric albedo range of 0.04–0.10,[21] Trinculo should have a diameter between 12–19 km (7–12 mi).[a] Scott Sheppard, who has discovered many irregular moons around other giant planets, estimates Trinculo's diameter to be 18 km (11 mi).[9]

Observations by the Keck II telescope in 2003 suggest that Trinculo might have a "neutral" or gray color,[d] similar to Prospero and Setebos.[11]: L78  Astronomers have attempted to measure Trinculo's rotation period in 2005 by using the Very Large Telescope, but were unable to find any periodic variation in the moon's brightness.[23]

Exploration

Trinculo has not been imaged up close by a space probe. However, Trinculo and other Uranian irregular moons are planned to be distant observation targets for the upcoming Uranus Orbiter and Probe (UOP), which will measure the Uranian irregular moons' rotation periods and shapes by watching their brightness change over time.[24][25] The UOP may not be able to do a close flyby of Trinculo because the moon does not orbit near the ecliptic plane.[25]

See also

Notes

  1. ^ a b The diameter (in km) is calculated from absolute magnitude (H) and geometric albedo (p) according to the formula .[7] Given H = 12.7, and assuming an albedo range of 0.04–0.10, the diameter range is 12–19 km.
  2. ^ Margaret ended up lost in 2001, but was rediscovered by Scott Sheppard and David Jewitt in 2003.[14]: 477 
  3. ^ Brozovic et al. (2022) gives 12,000 and 4,300 years for Trinculo's apsidal and nodal precession periods, respectively.[18]: 7  On the other hand, JPL (2024) gives 2,589 and 4,265 years for Trinculo's apsidal and nodal precession periods, respectively.[6]
  4. ^ An object is "specially neutral" if it reflects a similar proportion of light as the Sun across the visible spectrum, which gives it a colorless or gray appearance.[22]

References

  1. ^ a b c d e Marsden, Brian G. (30 September 2003). "MPEC 2002-S64 : S/2001 U 1". Minor Planet Electronic Circulars (2002-S64). Minor Planet Center. Bibcode:2002MPEC....S...64P. Retrieved 5 July 2025.
  2. ^ "Planetary Satellite Discovery Circumstances". JPL Solar System Dynamics. NASA. Retrieved 5 July 2025.
  3. ^ a b "Planet and Satellite Names and Discoverers". Gazetteer of Planetary Nomenclature. USGS Astrogeology Science Center. Retrieved 5 July 2025.
  4. ^ Shakespeare Recording Society (1995) The Tempest (audio CD)
  5. ^ Benjamin Smith (1903) The Century Dictionary and Cyclopedia
  6. ^ a b c d "Planetary Satellite Mean Elements". JPL Solar System Dynamics. NASA. Retrieved 5 July 2025.
  7. ^ "Asteroid Size Estimator". Center for Near Earth Object Studies. NASA. Retrieved 5 July 2025.
  8. ^ a b c d "Trinculo". NASA. 25 January 2024. Retrieved 5 July 2025.
  9. ^ a b c d Sheppard, Scott S. "Moons of Uranus". Earth & Planets Laboratory. Carnegie Institution for Science. Retrieved 5 July 2025.
  10. ^ a b 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). arXiv:1706.06837. Bibcode:2017AJ....154..119F. doi:10.3847/1538-3881/aa8365. S2CID 118869078. 119.
  11. ^ a b c d e Grav, Tommy; Holman, Matthew J.; Fraser, Wesley C. (September 2004). "Photometry of Irregular Satellites of Uranus and Neptune". The Astrophysical Journal. 613 (1): L77 – L80. arXiv:astro-ph/0405605. Bibcode:2007A&A...472..311M. doi:10.1086/424997. S2CID 15706906.
  12. ^ a b "Natural Satellites Ephemeris Service". Minor Planet Center. Retrieved 5 July 2025. Check "All Uranian outer irregular satellites", go to "Output Format(s) Required" and check "I require Orbital Elements", and then click the gray "Get Information" button.
  13. ^ a b Kavelaars, J. J. (27 November 2001). "Three more minor moons for Uranus". Dominion Astrophysical Observatory. Archived from the original on 6 July 2011. Retrieved 5 July 2025.
  14. ^ a b c d e f g Kavelaars, J. J.; Holman, M. J.; Grav, T. Grav; Milisavljevic, D.; Fraser, W.; Gladman, B. J.; et al. (June 2004). "The discovery of faint irregular satellites of Uranus". Icarus. 169 (2): 474–481. Bibcode:2004Icar..169..474K. doi:10.1016/j.icarus.2004.01.009. S2CID 248458067.
  15. ^ a b Gladman, Brett (October 2002). "Tracking of S/2001 U 1". University of British Columbia. Archived from the original on 25 February 2003. Retrieved 7 July 2025.
  16. ^ a b c Holman, M.; Kavelaars, J.; Milisavljevic, D.; Gladman, B.; Nicholson, P.; Dumas, C.; et al. (7 October 2003). Green, Daniel W. E. (ed.). "IAUC 7980: S/2001 U 1; S/2002 (121) 1". IAU Circular (7980). Central Bureau of Astronomical Telegrams: 1. Bibcode:2002IAUC.7980....1H. Retrieved 8 January 2011.
  17. ^ Green, Daniel W. E., ed. (29 December 2005). "IAUC 8648: Sats OF URANUS; 2005mf, 2005mg; C/2005 U7, C/2005 U8, C/2005 Y1". IAU Circular (8648). Central Bureau of Astronomical Telegrams: 1. Bibcode:2005IAUC.8648....1G. Retrieved 5 July 2025.
  18. ^ a b c d e f g Brozović, Marina; Jacobson, Robert A. (May 2022). "Orbits of the Irregular Satellites of Uranus and Neptune". The Astronomical Journal. 163 (5). Bibcode:2022AJ....163..241B. doi:10.3847/1538-3881/ac617f. S2CID 248458067. 241.
  19. ^ a b c d Sheppard, Scott S.; Tholen, David J.; Brozović, Marina; Jacobson, Robert A.; Trujillo, Chadwick A.; Lykawka, Patryk Sofia (December 2024). "New Moons of Uranus and Neptune from Ultradeep Pencil-beam Surveys". The Astronomical Journal. 168 (6). arXiv:2410.00108. Bibcode:2024AJ....168..258S. doi:10.3847/1538-3881/ad7fed. S2CID 273022766. 258.
  20. ^ Cartwright, Richard J.; Beddingfield, Chloe B.; Nordheim, Tom A.; Elder, Catherine M.; Castillo-Rogez, Julie C.; Neveu, Marc; et al. (June 2021). "The Science Case for Spacecraft Exploration of the Uranian Satellites: Candidate Ocean Worlds in an Ice Giant System". The Planetary Science Journal. 2 (3). arXiv:2105.01164. Bibcode:2021PSJ.....2..120C. doi:10.3847/PSJ/abfe12. S2CID 220525809. 120.
  21. ^ Sharkey, Benjamin N. L.; Reddy, Vishnu; Kuhn, Olga; Sanchez, Juan A.; Bottke, William F. (November 2023). "Spectroscopic Links among Giant Planet Irregular Satellites and Trojans". The Planetary Science Journal. 4 (11). arXiv:2310.19934. Bibcode:2023PSJ.....4..223S. doi:10.3847/PSJ/ad0845. S2CID 264819644. 223.
  22. ^ Fulchignoni, Marcello; Belskaya, Irina; Barucci, Maria Antonietta; De Sanctis, Maria Cristina; Doressoundiram, Alain (2008). "Transneptunian Object Taxonomy" (PDF). The Solar System Beyond Neptune. University of Arizona Press. pp. 181–192. Bibcode:2008ssbn.book..181F. ISBN 9780816527557. S2CID 54970643.
  23. ^ Maris, M.; Carraro, G.; Parisi, M. G. (September 2007). "Light curves and colours of the faint Uranian irregular satellites Sycorax, Prospero, Stephano, Setebos, and Trinculo". Astronomy and Astrophysics. 472 (1): 311–319. arXiv:0704.2187. Bibcode:2004ApJ...613L..77G. doi:10.1051/0004-6361:20066927. S2CID 12362256.
  24. ^ Verbiscer, Anne J.; Denk, Tilmann; Mottola, Stefano; Porter, Simon B. (July 2023). Observing the Irregular Moons of Uranus by a Uranus Flagship Mission (PDF). Uranus Flagship: Investigations and Instruments for Cross-Discipline Science Workshop (poster). Bibcode:2023LPICo2808.8187V. 8187. Archived from the original (PDF) on 29 February 2024.
  25. ^ a b Denk, Tilmann; Verbiscer, Anne J.; Mottola, Stefano; Porter, Simon B. (July 2023). Observing the Irregular Moons of Uranus by the Uranus Orbiter Probe Mission, Part 2: Observation Campaigns (PDF). Uranus Flagship: Investigations and Instruments for Cross-Discipline Science Workshop (poster). Bibcode:2023LPICo2808.8169D. 8169.
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