Extinct comet

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Comet nucleus of 9P/Tempel as imaged by the NASA Deep Impact space probe, this is not extinct yet but gives some idea a nucleus

Extinct comets are comets that have expelled most of their volatile ice and have little left to form a tail or coma. The volatile material contained in the comet nucleus evaporates away, and all that remains is inert rock or rubble that can resemble an asteroid. Comets may go through a transition phase as they come close to extinction. A comet may be dormant rather than extinct, if its volatile component is sealed beneath an inactive surface layer.

Nature of extinct comets[edit]

Extinct comets are those that have expelled most of their volatile ice and have little left to form a tail or coma. Over time, most of the volatile material contained in a comet nucleus evaporates away, and the comet becomes a small, dark, inert lump of rock or rubble[1] that can resemble an asteroid.[2]

Disintegration of asteroid P/2013 R3 observed by the Hubble Space Telescope between late-October 2013 and early-January 2014.[3]

Other related types of comet include transition comets, that are close to becoming extinct, such as were looked for in the Hubble search for transition comets.[4] Comets such as C/2001 OG108 (LONEOS) may represent the transition between extinct comets and typical Halley-type comets (periods of 20–200 years) or long period comets (periods longer than 200 years).[5] Minor planets of the group of damocloids have been studied as possible extinct cometary candidates due to the similarity of their orbital parameters with those of Halley-type comets.[5]

Dormant comets are those within which volatiles may be sealed, but which have inactive surfaces. For example, 14827 Hypnos may be the nucleus of an extinct comet that is covered by a crust several centimeters thick that prevents any remaining volatiles from outgassing.[6]

The term dormant comet is also used to describe comets that may become active but are not actively outgassing. For example, 60558 Echeclus has displayed a cometary coma and now also has the cometary designation 174P/Echeclus. After passing perihelion in early 2008, centaur 52872 Okyrhoe significantly brightened.[7]

The distinction between comets and asteroids[edit]

When discovered, asteroids were seen as a class of objects distinct from comets, and there was no unified term for the two until "small Solar System body" was coined by the IAU in 2006. The main difference between an asteroid and a comet is that a comet shows a coma due to sublimation of near-surface ices by solar radiation. A few objects have ended up being dual-listed because they were first classified as minor planets but later showed evidence of cometary activity. Conversely, some (perhaps all) comets are eventually depleted of their surface volatile ices and develop the appearance of asteroids. A further distinction is that comets typically have more eccentric orbits than most asteroids; most "asteroids" with notably eccentric orbits are probably dormant or extinct comets. Also, they are theorized to be common objects amongst the celestial bodies orbiting close to the Sun.[8]

Roughly six percent of the near-Earth asteroids are thought to be extinct nuclei of comets which no longer experience outgassing.[6][9][10]

Extinct comets[edit]

Don Quixote (apmag 15) near perihelion in 2009.
The eccentric (e=0.66) comet-like orbit of Hypnos.

Suspected or theorized extinct comets include:

See also[edit]

References[edit]

  1. ^ "If comets melt, why do they seem to last for long periods of time?", Scientific American, November 16, 1998
  2. ^ "What is the difference between asteroids and comets?", Rosetta FAQ, ESA
  3. ^ Harrington, James D.; Villard, Ray (6 March 2014). "RELEASE 14-060 NASA's Hubble Telescope Witnesses Asteroid's Mysterious Disintegration". NASA. Retrieved 6 March 2014. 
  4. ^ Space Telescope Science Institute, 'Amateur Astronomers Will Use NASA's Hubble Space Telescope', Media Release STScI-1992-23, 10 September 1992, retrieved 18 March 2009.
  5. ^ a b Abell, Paul A.; Fernández, Yanga R.; Pravec, Petr; French, Linda M.; Farnham, Tony L.; Gaffey, Michael J.; Hardersen, Paul S.; Kušnirák, Peter; Šarounová, Lenka; Sheppard, Scott S. (2003). "Physical Characteristics of Asteroid-like Comet Nucleus C/2001 OG108 (LONEOS)". 34th Annual Lunar and Planetary Science Conference. 34: 1253. Bibcode:2003LPI....34.1253A. 
  6. ^ a b c Whitman, Kathryn; Morbidelli, Alessandro; Jedicke, Robert (2006). "The Size-Frequency Distribution of Dormant Jupiter Family Comets". Icarus. 183: 101. arXiv:astro-ph/0603106Freely accessible. Bibcode:2006Icar..183..101W. doi:10.1016/j.icarus.2006.02.016. 
  7. ^ Trigo-Rodríguez, Josep M.; García Melendo, Enrique; García-Hernández, D. Aníbal; Davidsson, Björn J. R.; Sánchez, Albert; Rodríguez, Diego (2008). "A continuous follow-up of Centaurs, and dormant comets: looking for cometary activity" (PDF). European Planetary Science Congress. Retrieved 2008-10-12. 
  8. ^ a b "SOHO's new catch: its first officially periodic comet". European Space Agency. 25 September 2007. Retrieved 2007-11-19. 
  9. ^ Morbidelli, Alessandro; Bottke Jr., William F.; Froeschlé, Christiane; Michel, Patrick (January 2002). W. F. Bottke Jr.; A. Cellino; P. Paolicchi; Richard P. Binzel, eds. "Origin and Evolution of Near-Earth Objects" (PDF). Asteroids III. University of Arizona Press: 409–422. 
  10. ^ a b c Lupishko, Dmitrij F.; di Martino, Mario; Lupishko, T. A. (September 2000). "What the physical properties of near-Earth asteroids tell us about sources of their origin?". Kinematika i Fizika Nebesnykh Tel Supplimen. 3 (3): 213–216. Bibcode:2000KFNTS...3..213L. 
  11. ^ Jewitt, David; Li, Jing (2010). "Activity in Geminid Parent (3200) Phaethon". arXiv:1009.2710Freely accessible [astro-ph.EP]. 
  12. ^ NEW OBJECT MOVES LIKE A COMET BUT LOOKS LIKE AN ASTEROID

External links[edit]