User:AstroMark/wip/debris disk
A debris disk is a ring-shaped circumstellar disk of dust and debris in orbit around a star. Debris disks have been found around both evolved and young stars, as well as at least one debris disk in orbit around a neutron star.[1] They can constitute a phase in the formation of a planetary system following the protoplanetary disk phase.[2] They can also be produced and maintained as the remnants of collisions between planetismals.[3]
By 2001, over 900 candidate stars have been found to possess a debris disk. They are usually located by examining the star system in infrared light and looking for an excess of radiation beyond that emitted by the star. This excess is inferred to be radiation from the star that has been absorbed by the disk, then radiated away as infrared energy.[4]
In certain cases the debris disks can be observed directly by occulting the primary star and then imaging the system.
Observation history
[edit]In 1984 a debris disk was located in orbit around the star Vega using the IRAS satellite. Initially this was believed to be a protoplanetary disk, but it is now thought to be a debris disk due to the lack of gas in the disk. Subsequently irregularities have been found in the disk, which may be indicative of the presence of planetary bodies.[5] Similar discoveries of debris disks were made around the stars Fomalhaut and Beta Pictoris.
By 1998 a debris disk had been located around the nearby star 55 Cancri, a system that is also known to contain a planet.[6] Structures in the debris disk around Epsilon Eridani also suggest perturbations by a planetary body in orbit around that star, which may be used to constrain the mass and orbit of the planet.[7]
Origin
[edit]Typical debris disks contain small grains 1–100 μm in size. Radiation from the host star can cause cause these particles to spiral inward because of the Poynting-Robertson effect, so the lifetime of the disk will be on the order of 10 Myr or less. Thus, for a disk to remain intact, a process is needed to continually replenish the disk. This can occur, for example, by means of collisions between larger bodies. This can occur on a continual basis as collisions grind objects down into ever smaller bodies.[8]
For collisions to occur in a debris disk, the bodies must be gravitationally perturbed sufficiently to create relatively large collisional velocities. A planetary system around the star can cause such perturbations, as can a binary star companion or the close approach of another star.[8]
Known belts
[edit]Belts of dust or debris have also been detected around stars other than the Sun, including the following:
Star | Spectral class[9] |
Distance (ly) |
Orbit (AU) |
---|---|---|---|
Epsilon Eridani[7] | K2V | 10.5 | 35–75 |
Vega[5][10] | A0V | 25 | 86–200 |
AU Microscopii[11] | M1Ve | 33 | 50–150 |
HD 69830[12] | K0V | 41 | <1 |
55 Cancri A[6] | G8V | 41 | 27–50 |
HD 139664[13] | F5IV-V | 57 | 60–109 |
Eta Corvi[14] | F2V | 59 | 100–150 |
HD 53143[13] | K1V | 60 | ? |
Beta Pictoris[10] | A5V | 63 | 25–550 |
Zeta Leporis[15] | A2Vann | 70 | 2–8 |
HD 92945[16] | K1V | 72 | 45–175 |
HD 107146[17] | G2V | 88 | 130 |
Fomalhaut[5] | A3V | 133 | 25 |
HD 12039[18] | G3-5V | 137 | 5 |
HD 15115[19] | F2V | 150 | 315–550 |
HR 4796 A[20][21] | A0V | 220 | 200 |
HD 141569[21] | B9.5e | 320 | 400 |
HD 113766 A[22] | F4V | 430 | 0.35–5.8 |
The orbital distance of the belt is an estimated mean distance or range, based either on direct measurement from imaging or derived from the temperature of the belt. The Earth has an average distance from the Sun of 1 AU.
See also
[edit]References
[edit]- ^ Z. Wang, D. Chakrabarty, D. L. Kaplan (2006). "A debris disk around an isolated young neutron star". Nature. 440 (7085): 772–775.
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: CS1 maint: multiple names: authors list (link) - ^ "Spitzer Team Says Debris Disk Could Be Forming Infant Terrestrial Planets". NASA. December 14, 2005. Retrieved 2007-01-03.
- ^ "Spitzer Sees Dusty Aftermath of Pluto-Sized Collision". NASA. January 10, 2005. Retrieved 2007-01-03.
- ^ "Debris Disk Database". Royal Observatory Edinburgh. Retrieved 2007-01-03.
- ^ a b c "Astronomers discover possible new Solar Systems in formation around the nearby stars Vega and Fomalhaut" (Press release). Joint Astronomy Centre. April 21, 1998. Retrieved 2006-04-24.
- ^ a b "University Of Arizona Scientists Are First To Discover Debris Disk Around Star Orbited By Planet". ScienceDaily. October 23, 1998. Retrieved 2006-05-24.
- ^ a b J.S. Greaves; W.S. Holland; M.C. Wyatt; W.R.F. Dent; E.I. Robson; I.M. Coulson; T. Jenness; G.H. Moriarty-Schieven; G.R. Davis; H.M. Butner; W.K. Gear; C. Dominik; H. J. Walker (2005). "Structure in the Epsilon Eridani Debris Disk". The Astrophysical Journal. 619: L187–L190.
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: CS1 maint: multiple names: authors list (link) - ^ a b Scott Kenyon & Benjamin Bromley (2007). "Stellar Flybys & Planetary Debris Disks". Smithsonian Astrophysical Observatory. Retrieved 2007-07-23.
- ^ "SIMBAD: Query by identifiers". Centre de Données astronomiques de Strasbourg. Retrieved 2007-07-17.
- ^ a b Backman, D. E. (1996). "Dust in beta PIC / VEGA Main Sequence Systems". Bulletin of the American Astronomical Society. 28: 1056. Retrieved 2007-06-17.
- ^ Sanders, Robert (January 8, 2007). "Dust around nearby star like powder snow". UC Berkeley News. Retrieved 2007-01-11.
- ^ Lisse, C. M.; Beichman, C. A.; Bryden, G.; Wyatt, M. C. (1999). "On the Nature of the Dust in the Debris Disk around HD 69830". The Astrophysical Journal. 658 (1): 584–592. Retrieved 2007-05-25.
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: CS1 maint: multiple names: authors list (link) - ^ a b Kalas, Paul; Graham, James R.; Clampin, Mark C.; Fitzgerald, Michael P. (2006). "First Scattered Light Images of Debris Disks around HD 53143 and HD 139664". The Astrophysical Journal. 637 (1): L57–L60. Retrieved 2007-05-25.
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: CS1 maint: multiple names: authors list (link) - ^ Wyatt, M. C.; Greaves, J. S.; Dent, W. R. F.; Coulson, I. M. (2005). "Submillimeter Images of a Dusty Kuiper Belt around Corvi". The Astrophysical Journal. 620: 492–500. Retrieved 2007-07-17.
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: CS1 maint: multiple names: authors list (link) - ^ M. M. Moerchen, C. M. Telesco, C. Packham, T. J. J. Kehoe (2006). "Mid-infrared resolution of a 3 AU-radius debris disk around Zeta Leporis". Astrophysical Journal Letters.
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: CS1 maint: multiple names: authors list (link) - ^ D. Golimowski; et al. (2007). "Observations and Models of the Debris Disk around K Dwarf HD 92945" (PDF). University of California, Berkeley Astronomy Department. Retrieved 2007-07-17.
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(help) - ^ Jonathan P. Williams; et al. (2004). "Detection of cool dust around the G2V star HD 107146". Astrophysical Journal. 604: 414–419. Retrieved 2007-06-17.
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(help) - ^ Hines, Dean C.; et al. (2006). "The Formation and Evolution of Planetary Systems (FEPS): Discovery of an Unusual Debris System Associated with HD 12039". The Astrophysical Journal. 638 (2): 1070–1079. Retrieved 2007-07-17.
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(help) - ^ Kalas, Paul; Fitzgerald, Michael P.; Graham, James R. (2007). "Discovery of Extreme Asymmetry in the Debris Disk Surrounding HD 15115". The Astrophysical Journal. 661 (1): L85–L88. Retrieved 2007-07-23.
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: CS1 maint: multiple names: authors list (link) - ^ Koerner, D. W.; Ressler, M. E.; Werner, M. W.; Backman, D. E. (1998). "Mid-Infrared Imaging of a Circumstellar Disk around HR 4796: Mapping the Debris of Planetary Formation". Astrophysical Journal Letters. 503: L83. Retrieved 2007-06-17.
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: CS1 maint: multiple names: authors list (link) - ^ a b Villard, Ray; Weinberger, Alycia; Smith, Brad (January 8, 1999). "Hubble Views of Dust Disks and Rings Surrounding Young Stars Yield Clues". HubbleSite. Retrieved 2007-06-17.
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: CS1 maint: multiple names: authors list (link) - ^ Meyer, M. R.; Backman, D. (January 08, 2002). "Belt of Material Around Star May Be First Step in Terrestrial Planet Formation". University of Arizona, NASA. Retrieved 2007-07-17.
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External links
[edit]- McCabe, Caer (May 30 2007). "Catalog of Resolved Circumstellar Disks". NASA JPL. Retrieved 2007-07-17.
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