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Coma (cometary)

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Title: Coma (cometary)  
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Coma (cometary)

Structure of Comet Holmes in infrared, as seen by an infrared space telescope

Coma is the nebulous envelope around the nucleus of a comet. It is formed when the comet passes close to the Sun on its highly elliptical orbit; as the comet warms, parts of it sublimate.[1] This gives a comet a "fuzzy" appearance when viewed in telescopes and distinguishes it from stars. The word coma comes from the Greek "kome", in Greek written as κόμη, and can be translated as "hair".[2]

The coma is generally made of ice and comet dust.[1] Water dominates up to 90% of the volatiles that outflow from the nucleus when the comet is within 3-4 AU of the Sun.[1] The H2O parent molecule is destroyed primarily through photodissociation and to a much smaller extent photoionization.[1] The solar wind plays a minor role in the destruction of water compared to photochemistry.[1] Larger dust particles are left along the comet's orbital path while smaller particles are pushed away from the Sun into the comet's tail by light pressure.

On 11 August 2014, astronomers released studies, using the Atacama Large Millimeter/Submillimeter Array (ALMA) for the first time, that detailed the distribution of HCN, HNC, H2CO, and dust inside the comae of comets C/2012 F6 (Lemmon) and C/2012 S1 (ISON).[3][4] On 2 June 2015, NASA reported that the ALICE spectrograph on the Rosetta space probe studying comet 67P/Churyumov–Gerasimenko determined that electrons (within 1 km (0.62 mi) above the comet nucleus) produced from photoionization of water molecules by solar radiation, and not photons from the Sun as thought earlier, are responsible for the degradation of water and carbon dioxide molecules released from the comet nucleus into its coma.[5][6]


  • Size 1
  • X-rays 2
  • Observation 3
  • Hydrogen gas halo 4
  • Composition 5
  • Coma spectrum 6
  • External links 7
  • See also 8
  • References 9


Comet 17P/Holmes, 2007/11/02

Comas typically grow in size as comets approach the Sun, and they can be as large as the diameter of Jupiter, even though the density is very low.[2] About a month after an outburst in October 2007, comet 17P/Holmes briefly had a tenuous dust atmosphere larger than the Sun.[7] The Great Comet of 1811 also had a coma roughly the diameter of the Sun.[8] Even though the coma can become quite large, its size can actually decrease about the time it crosses the orbit of Mars around 1.5 AU from the Sun.[8] At this distance the solar wind becomes strong enough to blow the gas and dust away from the coma, enlarging the tail.[8]


Tempel 1 in X-ray light by Chandra

Comets were found to emit X-rays in 1996.[9] This surprised researchers, because X-ray emission is usually associated with very high-temperature bodies. The X-rays are thought to be generated by the interaction between comets and the solar wind: when highly charged ions fly through a cometary atmosphere, they collide with cometary atoms and molecules, "ripping off" one or more electrons from the comet. This ripping off leads to the emission of X-rays and far ultraviolet photons.[10]


With basic Earth-surface based telescope and some technique, the size of the Coma can be calculated.[11] Called the drift method, one locks the telescope in position and measures the time for the visible disc pass through the field of view.[11] That time multiplied by the cosine of comet's declination, times .25 should equal the coma's diameter in arcminutes.[11] If the distance to the comet is known, then the apparent size of the coma can be determined.[11]

In 2015, it was noted that the ALICE instrument on the ESA Rosetta spacecraft to comet 67/P, detected hydrogen, oxygen, carbon and nitrogen in the Coma, which they also called the Comet's atmosphere.[12] Alice is an ultraviolet spectrograph, and it found that electrons created by UV light were colliding and breaking up molecules of water and carbon monoxide.[13]

Hydrogen gas halo

Artifically colored far-ultraviolet imaged (with film) of Comet Kohoutek (Skylab, 1973)

OAO-2 ('Stargazer') discovered large halos of hydrogen gas around comets.[14] Space probe Giotto detected hydrogen ions at distance of 7.8 million km away from Halley when it did close flyby of the comet in 1986.[15] A hydrogen gas halo was detected to be 15 times the diameter of Sun (12.5 million miles).[16] This triggered NASA to point the Pioneer Venus mission at the Comet, and it was determined that the Comet emitting 12 tons of water per second.[17] The hydrogen gas emmission has not been detected from Earth's surface because those wavelengths are blocked by the atmosphere.[18] The process by which water is broken down into hydrogen and oxygen was studied by the ALICE instrument aboard the Rosetta spacecraft.[19] One of the issues is where the hydrogen is coming from and how(e.g. Water splitting)

First, an ultraviolet photon from the Sun hits a water molecule in the comet’s coma and ionises it, knocking out an energetic electron. This electron then hits another water molecule in the coma, breaking it apart into two hydrogen atoms and one oxygen, and energising them in the process. These atoms then emit ultraviolet light that is detected at characteristic wavelengths by Alice.
— ESA News Portal[20]

A hydrogen gas halo three times the size of the Sun was detected by Skylab around Comet Kohoutek in the 1970s.[21] SOHO detected a hydrogen gas halo bigger than 1 AU in radius around Comet Hale-Bopp.[22] Water emitted by the comet is broken up by sunlight, and the hydrogen in turn emits ultra-violet light.[23] The halos have been measured to be ten billion meters across 10^10, many times bigger than the Sun.[24] The hydrogen atom are very light so they can travel a long distance before they are themselves ionized by the Sun.[25] When the hydrogen atoms are ionized they are especially swept away by the solar wind.[26]


The Rosetta mission found carbon monoxide, carbon dioxide, ammonia, methane and methanol in the Coma of Comet 67P, as well as small amounts of formaldehyde, hydrogen sulphide, hydrogen cyanide, sulphur dioxide and carbon disulphide.[27]

The four top gases in 67P's halo were water, carbon dioxide, carbon monoxide, and oxygren.[28] The ration of oxygen to water coming off the comet remained constant for several months.[29]

Coma spectrum

Three coma spectra compared

External links

  • Comet appearance and structure
  • NASA - Comets
  • NASA - Cosmos - Comets (Chapter 14)

See also


  1. ^ a b c d e Combi, Michael R.; Harris, W. M.; Smyth, W. H. (2004). "Gas Dynamics and Kinetics in the Cometary Coma: Theory and Observations" (PDF).  
  2. ^ a b Comet appearance and structure
  3. ^ Zubritsky, Elizabeth; Neal-Jones, Nancy (11 August 2014). "RELEASE 14-038 - NASA’s 3-D Study of Comets Reveals Chemical Factory at Work".  
  4. ^ Cordiner, M.A.; et al. (11 August 2014). "Mapping the Release of Volatiles in the Inner Comae of Comets C/2012 F6 (Lemmon) and C/2012 S1 (ISON) Using the Atacama Large Millimeter/Submillimeter Array".  
  5. ^ Agle, DC; Brown, Dwayne; Fohn, Joe; Bauer, Markus (2 June 2015). "NASA Instrument on Rosetta Makes Comet Atmosphere Discovery".  
  6. ^ Feldman, Paul D.; A'Hearn, Michael F.; Bertaux, Jean-Loup; Feaga, Lori M.; Parker, Joel Wm.; et al. (2 June 2015). "Measurements of the near-nucleus coma of comet 67P/Churyumov-Gerasimenko with the Alice far-ultraviolet spectrograph on Rosetta" (PDF).  
  7. ^  
  8. ^ a b c  
  9. ^ "First X-Rays from a Comet Discovered".  
  10. ^ "Interaction model – Probing space weather with comets". KVI atomics physics. Archived from the original on 2006-02-13. Retrieved 2009-04-26. 
  11. ^ a b c d David. H. Levy - David Levy's Guide to Observing and Discovering Comets - Page 127
  12. ^ Ultraviolet_study_reveals_surprises_in_comet_coma - ESA
  13. ^ Ultraviolet_study_reveals_surprises_in_comet_coma - ESA
  14. ^ Orbiting Astronomical Observatory OAO-2
  15. ^ ESA - Giotto
  16. ^ [9]
  17. ^ [10]
  18. ^ [11]
  19. ^ Ultraviolet study reveals surprises in comet coma
  20. ^ Ultraviolet study reveals surprises in comet coma
  21. ^ SP-404 Skylab's Astronomy and Space Sciences Chapter 4 Observations of Comet Kohoutek
  22. ^ [12]
  23. ^ [13]
  24. ^ [14]
  25. ^ [15]
  26. ^ [16]
  27. ^ The scent of a comet: Rotten eggs and pee
  28. ^ Rosetta finds molecular oxygen on comet 67P (Update)
  29. ^ Rosetta finds molecular oxygen on comet 67P (Update)
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