Dysnomia (moon)

Dysnomia (formally (136199) Eris I Dysnomia) is the only known moon of the dwarf planet Eris (the most massive known dwarf planet in the Solar System) and very probably the second-largest known moon of a dwarf planet, after Pluto I Charon. It was discovered in 2005 by Mike Brown and the laser guide star adaptive optics team at the W. M. Keck Observatory, and carried the provisional designation of S/2005 (2003 UB313) 1 until officially named Dysnomia[7] (from the Ancient Greek word Δυσνομία meaning anarchy/lawlessness) after the daughter of the Greek goddess Eris.

Dysnomia
Dysnomia, to the left, and Eris, center
(Hubble Space Telescope)
Discovery
Discovered byBrown et al.[1][2]
Discovery dateSeptember 10, 2005[2]
Designations
Designation
Eris I
Pronunciation/dɪsˈnmiə/[lower-alpha 1]
Named after
Δυσνομία Dysnomia
S/2005 (2003 UB313) 1
Dy /ˈd/ (nickname)
Gabrielle (nickname)
AdjectivesDysnomian
Orbital characteristics[3]
37350±140 km
Eccentricity< 0.013
15.774±0.002 d
0.172 km/s[lower-alpha 2]
Inclination61.3°±0.7° or 142°±[4]
Satellite ofEris
Physical characteristics
Mean diameter
700±115 km[5]
Mean radius
350±57.5 km[5]
Albedo0.04+0.02
−0.01
[5]
~25.4[lower-alpha 3]
~5.6[lower-alpha 3][6][5]

Dysnomia has an estimated diameter of 700±115 km (about 30% of Eris's diameter), and is among the 20 largest objects in the trans-Neptunian region.[5]

Discovery

During 2005, the adaptive optics team at the Keck telescopes in Hawaii carried out observations of the four brightest Kuiper belt objects (Pluto, Makemake, Haumea, and Eris), using the newly commissioned laser guide star adaptive optics system. Observations taken on September 10, 2005, revealed a moon in orbit around Eris, provisionally designated S/2005 (2003 UB313) 1. In keeping with the Xena nickname that was already in use for Eris, the moon was nicknamed "Gabrielle" by its discoverers, after Xena's sidekick.[8][9]

Properties

Dysnomia has an estimated diameter of 700 ± 115 km with an albedo of 0.04+0.02
−0.01
. The estimate was obtained using radiometric observation by ALMA observatory in submillimeter spectral region.[5] The same study suggested a wide range of potential masses for the satellite, depending on its actual density, with a system mass ratio anywhere from 37:1 to 115:1 (thus masses of approx 0.143x1021kg with a minimal 0.8g/cm3 density, to 0.437x1021kg for the same density as Eris itself).

Although the shape of Dysnomia is not known, it is presumed to have a spherical shape due to its large dimensions; Also is larger than the three smallest ellipsoidal moons of Saturn and Uranus (Enceladus, Miranda, and Mimas).[10]

In its discovery images Dysnomia was ~60 times fainter (or 4.43 magnitudes) than Eris in the K band,[11][12] and later observations with the Hubble Space Telescope found it to be 500 times fainter in the visible band.[6] This indicates a very different, and quite redder, spectrum, indicating a significantly darker surface.[13] Its diameter reveals it to be a rather large trans-Neptunian object.[14] Of the known moons of minor planets, only Charon is larger than Dysnomia.

Combining Keck and Hubble observations, the satellite was used to determine the mass of Eris, and orbital parameters were estimated. Its orbital period is calculated to be 15.774±0.002 d.[3] These observations indicate that Dysnomia has a circular orbit around Eris, with a radius of 37350±140 km.[3] This shows that the mass of Eris is 1.27 times that of Pluto.[3]

Formation

Astronomers now know that the six brightest Kuiper belt objects (KBOs) have satellites. Among the fainter members of the belt only about 10% are known to have satellites. This is thought to imply that collisions between large KBOs have been frequent in the past. Impacts between bodies of the order of 1000 km across would throw off large amounts of material that would coalesce into a moon. A similar mechanism is thought to have led to the formation of the Moon when Earth was struck by a giant impactor early in the history of the Solar System.

Name

EarthMoonCharonCharonNixNixKerberosStyxHydraHydraPlutoPlutoDysnomiaDysnomiaErisErisNamakaNamakaHaumeaHaumeaMakemakeMakemakeMK2MK2XiangliuXiangliuGonggongGonggongWeywotWeywotQuaoarQuaoarSednaSednaVanthVanthOrcusOrcusActaeaActaeaSalaciaSalacia2002 MS42002 MS4
Artistic comparison of Pluto, Eris, Haumea, Makemake, Gonggong, Quaoar, Sedna, Orcus, Salacia, 2002 MS4, and Earth along with the Moon.
Artist's conception of dwarf planet Eris seen from above the surface of Dysnomia.

Mike Brown, the moon's discoverer, chose the name Dysnomia for the moon. As the daughter of Eris, the mythlogical Dysnomia fit the established pattern of naming moons after gods associated with the primary body (hence, Jupiter's largest moons are named after lovers of Jupiter, while Saturn's are named after his fellow Titans). Also, the English translation of "Dysnomia", "lawlessness", echoes Lucy Lawless, the actress who played Xena in Xena: Warrior Princess on television. Before receiving their official names, Eris and Dysnomia had been nicknamed "Xena" and "Gabrielle", though Brown states that the connection was accidental.[15]

A primary reason for the name was its similarity to the name of Brown's wife, Diane, following a pattern established with Pluto. Pluto owes its name in part to its first two letters, which form the initials of Percival Lowell, the founder of the observatory where its discoverer, Clyde Tombaugh, was working, and the person who inspired the search for "Planet X". James Christy, who discovered Charon, did something similar by choosing a name which shared its first four letters with his wife's name, Charlene. (Indeed, Christy wasn't even aware that 'Charon' was a figure in Greek mythology.) "Dysnomia", similarly, has the same first letter as Brown's wife, Diane,[16] and Brown uses the nickname "Dy" /ˈdaɪ/ for the moon, which he pronounces the same as his wife's nickname, Di. Because of this, Brown pronounces the full name /dsˈnmiə/, with a long "y" sound.[17]

Notes

  1. Brown uses the pronunciation /dsˈnmiə/.
  2. The orbital period (P) is 15.774 d. The orbital circumference (C) is 2π*semi-major axis. Dividing these (P/C) using the correct units gives 0.172 km/s.
  3. Dysnomia's brightness is 1/500 of Eris in the visible band. With H = −1.19 for Eris, this gives H ≈ 5.6 for Dysnomia.

References

  1. Michael E. Brown, M. A. van Dam, A. H. Bouchez, D. Le Mignant, R. D. Campbell, J. C. Y. Chin, A. Conrad, S. K. Hartman, E. M. Johansson, R. E. Lafon, D. L. Rabinowitz, P. J. Stomski Jr., D. M. Summers, C. A. Trujillo, and P. L. Wizinowich
  2. Brown, M. E.; et al. (2006). "Satellites of the Largest Kuiper Belt Objects" (PDF). Astrophysical Journal Letters. 639 (1): L43–L46. arXiv:astro-ph/0510029. Bibcode:2006ApJ...639L..43B. doi:10.1086/501524. Retrieved 2011-10-19.CS1 maint: ref=harv (link)
  3. Brown, M. E.; Schaller, E. L. (2007). "The Mass of Dwarf Planet Eris". Science. 316 (5831): 1585. Bibcode:2007Sci...316.1585B. doi:10.1126/science.1139415. PMID 17569855.CS1 maint: ref=harv (link)
  4. Brown, M. E.; Schaller, E. L. (2007). "Supporting Online Material for The Mass of Dwarf Planet Eris" (PDF). Retrieved 2 February 2019.
  5. Brown, Michael E.; Butler, Bryan J. (2018). "Medium-sized satellites of large Kuiper belt objects". arXiv:1801.07221.
  6. Brown, M. E. (14 June 2007). "Dysnomia, the moon of Eris". Caltech. Retrieved 2011-07-03.
  7. Green, D. W. E. (13 September 2006). "(134340) Pluto, (136199) Eris, and (136199) Eris I (Dysnomia)". IAU Circular. 8747. Retrieved 12 January 2012.
  8. Zabarenko, D. (3 October 2005). "Planet Xena has moon called Gabrielle". Australian Broadcasting Corporation. Retrieved 9 March 2008.
  9. Ingham, R. (2 February 2006). "'Tenth planet' Xena bigger than Pluto". Australian Broadcasting Corporation. Retrieved 9 March 2008.
  10. https://www.planetary.org/blogs/emily-lakdawalla/2018/0202-big-moons-dysnomia-vanth.html
  11. Johnston, W. R. (30 December 2008). "(136199) Eris and Dysnomia". Johnston's Archive. Retrieved 2012-04-12.
  12. Green, D. W. E. (4 October 2005). "S/2005 (2003 UB313) 1". IAU Circular. 8610. Retrieved 12 January 2012.
  13. Sicardy, B.; et al. (2011). "A Pluto-like radius and a high albedo for the dwarf planet Eris from an occultation" (PDF). Nature. 478 (7370): 493–496. Bibcode:2011Natur.478..493S. doi:10.1038/nature10550. PMID 22031441.
  14. Santos-Sanz, P.; et al. (2012). ""TNOs are Cool": A Survey of the Transneptunian Region IV. Size/albedo characterization of 15 scattered disk and detached objects observed with Herschel Space Observatory-PACS". Astronomy & Astrophysics. 541: A92. arXiv:1202.1481. Bibcode:2012A&A...541A..92S. doi:10.1051/0004-6361/201118541.
  15. Mike Brown (2012) How I Killed Pluto and Why It Had It Coming, p. 239
  16. Tytell, D. (14 September 2006). "All Hail Eris and Dysnomia". Sky & Telescope. Retrieved 30 December 2006.
  17. "Julia Sweeney and Michael E. Brown". Hammer Conversations: KCET podcast. 2007. 42 min 12 sec. Archived from the original on 26 June 2008. Retrieved 28 June 2008.
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