Hoag's Object
Hoag's Object | |
---|---|
Observation data (J2000 epoch) | |
Constellation | Serpens Caput |
Right ascension | 15h 17m 14.4s[1] |
Declination | +21° 35′ 08″[1] |
Redshift | 12740±50 km/s[1][2] |
Distance | 612.8±9.4 Mly (187.9±2.9 Mpc)[2][a] |
Apparent magnitude (B) | 16.2[1] |
Characteristics | |
Type | (RP)E0 or (RP)SA0/a[3] |
Size | 45.41 kiloparsecs (148,000 light-years)[1][4] (diameter; D25 isophote) |
Apparent size (V) | 0.28′ × 0.28′[1] |
Notable features | Ring galaxy |
Other designations | |
PGC 54559,[1] PRC D-51[1] |
Hoag's Object is an unusual ring galaxy in the constellation of Serpens Caput.[5] It is named after Arthur Hoag, who discovered it in 1950 and identified it as either a planetary nebula or a peculiar galaxy.[6] The galaxy has a D25 isophotal diameter of 45.41 kiloparsecs (148,000 light-years).[1]
Characteristics
[edit]A nearly perfect ring of young hot blue stars circles the older yellow nucleus of this ring galaxy c. 600 million light-years away in the constellation Serpens. The ring structure is so perfect and circular that it has been referred to as "The most perfect ring galaxy".[7] The diameter of the 6 arcsecond inner core of the galaxy is about 17±0.7 kly (5.3±0.2 kpc) while the surrounding ring has an inner 28″ diameter of 75±3 kly (24.8±1.1 kpc) and an outer 45″ diameter of 121±4 kly (39.9±1.7 kpc).[2] The galaxy is estimated to have a mass of 700 billion suns.[8] By comparison, the Milky Way galaxy has an estimated diameter of 150-200 kly and consists of between 100 and 500 billion stars and a mass between 800 billion and 1.54 trillion suns.[9][10]
The gap separating the two stellar populations may contain some star clusters that are almost too faint to see. Though ring galaxies are rare, another more distant ring galaxy (SDSS J151713.93+213516.8)[11] can be seen through Hoag's Object, between the nucleus and the outer ring of the galaxy, at roughly the one o'clock position in the image shown here.
Noah Brosch and colleagues showed that the luminous ring lies at the inner edge of a much larger neutral hydrogen ring.[7]
History and formation
[edit]Even though Hoag's Object was clearly shown on the Palomar Star Survey, it was not included in either the Morphological Catalogue of Galaxies, the Catalogue of Galaxies and Clusters of Galaxies, or the catalogue of galactic planetary nebulae.[2]
In the initial announcement of his discovery, Hoag proposed the hypothesis that the visible ring was a product of gravitational lensing. This idea was later discarded because the nucleus and the ring have the same redshift, and because more advanced telescopes revealed the ring's knotty structure, which would not be visible if the galaxy were a product of gravitational lensing.[12]
Many of the galaxy's details remain mysterious, foremost of which is how it formed. So-called "classic" ring galaxies are generally formed by the collision of a small galaxy with a larger disk-shaped galaxy, producing a density wave in the disk that leads to a characteristic ring-like appearance. Such an event would have happened at least 2–3 billion years ago,[12] and may have resembled the processes that form polar-ring galaxies. However, there is no sign of any second galaxy that would have acted as the "bullet", and the likely older core of Hoag's Object has a very low velocity relative to the ring, making the typical formation hypothesis quite unlikely.[12] Observations with one of the most sensitive telescopes have also failed to uncover any faint galaxy fragments that should be observable in a collision scenario. However, a team of scientists that analyzes the galaxy admits that "if the carnage happened more than 3 billion years ago, there might not be any detritus left to see."[13]
Noah Brosch suggested that Hoag's Object might be a product of an extreme "bar instability" that occurred a few billion years ago in a barred spiral galaxy.[14] Schweizer et al[12] claim this is an unlikely hypothesis because the nucleus of the object is spheroidal, whereas the nucleus of a barred spiral galaxy is disc-shaped, among other reasons. However, they admit evidence is somewhat thin for this particular dispute to be settled satisfactorily.
A few other galaxies share the primary characteristics of Hoag's Object, including a bright detached ring of stars, but their centers are elongated or barred, and they may exhibit some spiral structure. While none matches Hoag's Object in symmetry, these galaxies are known to some as Hoag-type galaxies.[15][16]
See also
[edit]Notes
[edit]^ 1974 O'Connell paper[2] assumes a Hubble constant of 75; this figure adjusts for 2013's 67.8±0.77 (km/s)/Mpc.
References
[edit]- ^ a b c d e f g h i "NED results for Hoag's Object". NASA/IPAC Extragalactic Database. Retrieved 2016-06-28.
- ^ a b c d e R.W. O'Connell; J.D. Scargle; W.L.W. Sargent (1974). "The Nature of Hoag's Object". Astrophysical Journal. 191: 61–62. Bibcode:1974ApJ...191...61O. doi:10.1086/152940.
- ^ Buta, Ronald J. (2017). "Galactic rings revisited - I. CVRHS classifications of 3962 ringed galaxies from the Galaxy Zoo 2 Database". Monthly Notices of the Royal Astronomical Society. 471 (4): 4027–4046. arXiv:1707.06589. Bibcode:2017MNRAS.471.4027B. doi:10.1093/mnras/stx1829.
- ^ Adelman-Mccarthy, Jennifer K.; et al. (2008). "The Sixth Data Release of the Sloan Digital Sky Survey". The Astrophysical Journal Supplement Series. 175 (2): 297–313. arXiv:0707.3413. Bibcode:2008ApJS..175..297A. doi:10.1086/524984.
- ^ Specktor, Brandon (3 December 2019). "Hoag's Object Is a Galaxy Within a Galaxy Within a Galaxy (and Nobody Knows Why)". Live Science. Retrieved 3 December 2019.
- ^ A.A. Hoag (1950). "A peculiar object in Serpens". Astronomical Journal. 55: 170. Bibcode:1950AJ.....55Q.170H. doi:10.1086/106427.
- ^ a b N. Brosch; I. Finkelman; T. Oosterloo; G. Jozsa; A. Moiseev (2013). "HI in HO: Hoag's Object revisited". Monthly Notices of the Royal Astronomical Society. 435 (1): 199–206. arXiv:1307.6368. Bibcode:2013MNRAS.435..475B. doi:10.1093/mnras/stt1348.
- ^ Schweizer, Francois; Ford, W. Kent; Jedrzejewski, Robert; Giovanelli, Riccardo (1987). "The Structure and Evolution of Hoag's Object". The Astrophysical Journal. 320: 454. Bibcode:1987ApJ...320..454S. doi:10.1086/165562.
- ^ "Scientists discover what the Milky Way weighs". TheGuardian.com. 7 March 2019.
- ^ "What Does the Milky Way Weigh? Hubble and Gaia Investigate". 6 March 2019.
- ^ "SkyServer Object Explorer – SDSS J151713.93+213516.8".
- ^ a b c d F. Schweizer; W.K. Ford Jr.; R. Jederzejewski; R. Giovanelli (1987). "The structure and evolution of Hoag's object". Astrophysical Journal. 320: 454–463. Bibcode:1987ApJ...320..454S. doi:10.1086/165562.
- ^ "Astrophile: Saturn-lookalike galaxy has a murky past". www.newscientist.com. Retrieved 2019-10-31.
- ^ N. Brosch (1985). "The nature of Hoag's object – The perfect ringed galaxy". Astronomy and Astrophysics. 153 (1): 199–206. Bibcode:1985A&A...153..199B.
- ^ at 10:26, Gavin Clarke (2017-01-04). "Astroboffins glimpse sighting of ultra-rare circular galaxy". www.theregister.co.uk. Retrieved 2019-10-31.
{{cite web}}
: CS1 maint: numeric names: authors list (link) - ^ Bob Berman (2015-11-13). "Weird Object: Hoags Object". Astronomy.com. Archived from the original on 2022-07-24. Retrieved 2019-10-31.
External links
[edit]- Media related to Hoag's Object at Wikimedia Commons
- Hubble Space Telescope image of Hoag's Object.
- Accretion Rings Galactic Rings – Fund. Cosmic Physics, 1996. Vol. 17, pp. 95–281
- A Wheel within a Wheel (09/05/2002) News Release Number: STScI-2002-21 – HubbleSite
- ESA/Hubble image of Hoag's Object
- Hoag's Object on WikiSky: DSS2, SDSS, GALEX, IRAS, Hydrogen α, X-Ray, Astrophoto, Sky Map, Articles and images