Fornax Explained

Fornax
Abbreviation:For
Genitive:Fornacis
Pronounce:, genitive
Symbolism:the brazier
Family:La Caille
Quadrant:SQ1
Areatotal:398
Arearank:41st
Numbermainstars:2
Numberbfstars:27
Numberstarsplanets:6
Numberbrightstars:0
Numbernearbystars:2
Brighteststarname:α For
Starmagnitude:3.80
Neareststarname:LP 944-20
Stardistancely:16.20
Stardistancepc:4.97
Numbermessierobjects:0
Meteorshowers:0
Bordering:Cetus
Sculptor
Phoenix
Eridanus
Latmax:50
Latmin:90
Month:December

Fornax is a constellation in the southern celestial hemisphere, partly ringed by the celestial river Eridanus. Its name is Latin for furnace. It was named by French astronomer Nicolas Louis de Lacaille in 1756. Fornax is one of the 88 modern constellations.

The three brightest stars—Alpha, Beta and Nu Fornacis—form a flattened triangle facing south. With an apparent magnitude of 3.91, Alpha Fornacis is the brightest star in Fornax. Six star systems have been found to have exoplanets. The Fornax Dwarf galaxy is a small faint satellite galaxy of the Milky Way. NGC 1316 is a relatively close radio galaxy.

The Hubble's Ultra-Deep Field is located within the Fornax constellation.[1]

It is the 41st largest constellation in the night-sky, occupying an area of 398 square degrees. It is located in the first quadrant of the southern hemisphere (SQ1) and can be seen at latitudes between +50° and -90° during the month of December.

History

The French astronomer Nicolas Louis de Lacaille first described the constellation in French as le Fourneau Chymique (the Chemical Furnace) with an alembic and receiver in his early catalogue, before abbreviating it to le Fourneau on his planisphere in 1752,[2] [3] after he had observed and catalogued almost 10,000 southern stars during a two-year stay at the Cape of Good Hope. He devised fourteen new constellations in uncharted regions of the Southern Celestial Hemisphere not visible from Europe. All but one honoured instruments that symbolised the Age of Enlightenment. Lacaille Latinised the name to Fornax Chimiae on his 1763 chart.[4]

Characteristics

The constellation Eridanus borders Fornax to the east, north and south, while Cetus, Sculptor and Phoenix gird it to the north, west and south respectively. Covering 397.5 square degrees and 0.964% of the night sky, it ranks 41st of the 88 constellations in size,[5] The three-letter abbreviation for the constellation, as adopted by the International Astronomical Union in 1922, is "For".[6] The official constellation boundaries, as set by Belgian astronomer Eugène Delporte in 1930, are defined by a polygon of 8 segments (illustrated in infobox). In the equatorial coordinate system, the right ascension coordinates of these borders lie between and, while the declination coordinates are between −23.76° and −39.58°.[7] The whole constellation is visible to observers south of latitude 50°N.

Features

Stars

See also: List of stars in Fornax. Lacaille gave Bayer designations to 27 stars now named Alpha to Omega Fornacis, labelling two stars 3.5 degrees apart as Gamma, three stars Eta, two stars Iota, two Lambda and three Chi. Phi Fornacis was added by Gould, and Theta and Omicron were dropped by Gould and Baily respectively. Upsilon, too, was later found to be two stars and designated as such.[4] Overall, there are 59 stars within the constellation's borders brighter than or equal to apparent magnitude 6.5.[5] However, there are no stars brighter than the fourth magnitude.[8]

The three brightest stars form a flattish triangle, with Alpha (also called Dalim[9]) and Nu Fornacis marking its eastern and western points and Beta Fornacis marking the shallow southern apex.[10] Originally designated 12 Eridani by John Flamsteed, Alpha Fornacis was named by Lacaille as the brightest star in the new constellation.[4] It is a binary star that can be resolved by small amateur telescopes. With an apparent magnitude of 3.91, the primary is a yellow-white subgiant 1.21 times as massive as the Sun that has begun to cool and expand after exhausting its core hydrogen, having swollen to 1.9 times the Sun's radius. Of magnitude 6.5, the secondary star is 0.78 times as massive as the Sun. It has been identified as a blue straggler, and has either accumulated material from, or merged with, a third star in the past. It is a strong source of X-rays.[11] The pair is 46.4 ± 0.3 light-years distant from Earth.[12]

Beta Fornacis is a yellow-hued giant star of spectral type G8IIIb of magnitude 4.5 that has cooled and swelled to 11 times the Sun's diameter,[13] 178 ± 2 light-years from Earth. It is a red clump giant, which means it has undergone helium flash and is currently generating energy through the fusion of helium at its core.[14]

Nu Fornacis is 370 ± 10 light-years distant from Earth.[12] It is a blue giant star of spectral type B9.5IIIspSi that is 3.65 ± 0.18 times as massive and around 245 times as luminous as the Sun, with 3.2 ± 0.4 times its diameter.[15] It varies in luminosity over a period of 1.89 days—the same as its rotational period. This is because of differences in abundances of metals in its atmosphere; it belongs to a class of star known as an Alpha2 Canum Venaticorum variable.[16] [17]

Shining with an apparent magnitude of 5.89, Epsilon Fornacis is a binary star system located 104.4 ± 0.3 light-years distant from Earth. Its component stars orbit each other every 37 years. The primary star is around 12 billion years old and has cooled and expanded to 2.53 times the diameter of the Sun, while having only 91% of its mass.[18] Omega Fornacis is a binary star system composed of a blue main-sequence star of spectral type B9.5V and magnitude 4.96, and a white main sequence star of spectral type A7V and magnitude 7.88. The system is 470 ± 10 light-years distant from Earth.

Kappa Fornacis is a triple star system composed of a yellow giant and a pair of red dwarfs.

R Fornacis is a long-period variable and carbon star.

LP 944-20 is a brown dwarf of spectral type M9 that has around 7% the mass of the Sun. Approximately 21 light-years distant from Earth, it is a faint object with an apparent magnitude of 18.69.[19] Observations published in 2007 showed that the atmosphere of LP 944-20 contains much lithium and that it has dusty clouds.[20] Smaller and less luminous still is 2MASS 0243-2453, a T-type brown dwarf of spectral type T6. With a surface temperature of 1040–1100 K, it has 2.4–4.1% the mass of the Sun, a diameter 9.2 to 10.6% of that of the Sun, and an age of 0.4–1.7 billion years.[21]

Six star systems in Fornax have been found to have planets:

Deep-sky objects

Local Group

NGC 1049 is a globular cluster 500,000 light-years from Earth. It is in the Fornax Dwarf Galaxy. NGC 1360 is a planetary nebula in Fornax with a magnitude of approximately 9.0, 1,280 light-years from Earth. Its central star is of magnitude 11.4, an unusually bright specimen. It is five times the size of the famed Ring Nebula in Lyra at 6.5 arcminutes. Unlike the Ring Nebula, NGC 1360 is clearly elliptical.

The Fornax Dwarf galaxy is a dwarf galaxy that is part of the Local Group of galaxies. It is not visible in amateur telescopes, despite its relatively small distance of 500,000 light-years.

Helmi stream is a small galactic stream in Fornax. This small galaxy was destroyed by Milky Way 6 billion years ago. There was candidate for extragalactic planet, HIP 13044 b.

Outside

NGC 1097 is a barred spiral galaxy in Fornax, about 45 million light-years from Earth. At magnitude 9, it is visible in medium amateur telescopes. It is notable as a Seyfert galaxy with strong spectral emissions indicating ionized gases and a central supermassive black hole.

Fornax Cluster

The Fornax Cluster is a cluster of galaxies lying at a distance of 19 megaparsecs (62 million light-years).[25] It is the second richest galaxy cluster within 100 million light-years, after the considerably larger Virgo Cluster, and may be associated with the nearby Eridanus Group. It lies primarily in the constellation Fornax, with its southern boundaries partially crossing into the constellation of Eridanus, and covers an area of sky about 6° across or about 28 sq degrees.[26] The Fornax cluster is a part of larger Fornax Wall.[27] Down are some famous objects in this cluster:

NGC 1365 is another barred spiral galaxy located at a distance of 56 million light-years from Earth. Like NGC 1097, it is also a Seyfert galaxy. Its bar is a center of star formation and shows extensions of the spiral arms' dust lanes. The bright nucleus indicates the presence of an active galactic nucleus – a galaxy with a supermassive black hole at the center, accreting matter from the bar. It is a 10th magnitude galaxy associated with the Fornax Cluster.

Fornax A is a radio galaxy with extensive radio lobes that corresponds to the optical galaxy NGC 1316, a 9th-magnitude galaxy. One of the closer active galaxies to Earth at a distance of 62 million light-years, Fornax A appears in the optical spectrum as a large elliptical galaxy with dust lanes near its core. These dust lanes have caused astronomers to discern that it recently merged with a small spiral galaxy. Because it has a high rate of type Ia supernovae, NGC 1316 has been used to determine the size of the universe. The jets producing the radio lobes are not particularly powerful, giving the lobes a more diffuse, knotted structure due to interactions with the intergalactic medium.[28] Associated with this peculiar galaxy is an entire cluster of galaxies.

NGC 1399 is a large elliptical galaxy in the Southern constellation Fornax, the central galaxy in the Fornax cluster.[29] The galaxy is 66 million light-years away from Earth. With a diameter of 130 000 light-years, it is one of the largest galaxies in the Fornax cluster and slightly larger than Milky Way. William Herschel discovered this galaxy on October 22, 1835.

NGC 1386 is a spiral galaxy located in the constellation Eridanus. It is located at a distance of circa 53 million light years from Earth and has apparent dimensions of 3.89' x 1.349'.[30] It is a Seyfert galaxy, the only one in Fornax Cluster.

NGC 1427A is an irregular galaxy in the constellation Eridanus. Its distance modulus has been estimated using the globular cluster luminosity function to be 31.01 ± 0.21 which is about 52 Mly.[25] It is the brightest dwarf irregular member of the Fornax cluster and is in the foreground of the cluster's central galaxy NGC 1399.

NGC 1460 is a barred lenticular galaxy in the constellation Eridanus. It was discovered by John Herschel on November 28, 1837.[31] It is moving away from the Milky Way 1341 km/s. NGC 1460 has a Hubble classification of SB0, which indicates it is a barred lenticular galaxy. But, this one contains a huge bar at its core. The bar is spreading from center to the edge of the galaxy, as seen on Hubble image in the box. This bar is one of the largest seen in barred lenticular galaxies.

There are also first ultracompact dwarf galaxies discovered.

Distant universe

Fornax has been the target of investigations into the furthest reaches of the universe. The Hubble Ultra Deep Field is located within Fornax, and the Fornax Cluster, a small cluster of galaxies, lies primarily within Fornax. At a meeting of the Royal Astronomical Society in Britain, a team from University of Queensland described 40 unknown "dwarf" galaxies in this constellation; follow-up observations with the Hubble Space Telescope and the European Southern Observatory's Very Large Telescope revealed that ultra compact dwarfs are much smaller than previously known dwarf galaxies, about 120ly across.[32] `UDFj-39546284 is a candidate protogalaxy located in Fornax,[33] [34] [35] [36] although recent analyses have suggested it is likely to be a lower redshift source.[37] [38]

GRB 190114C was a notable gamma ray burst explosion from a galaxy 4.5 billion light years away near the Fornax constellation,[39] [40] [41] that was initially detected in January 2019.[42] [43] According to astronomers, "the brightest light ever seen from Earth [to date] ... [the] biggest explosion in the Universe since the Big Bang".[44]

Equivalents

In Chinese astronomy, the stars that correspond to Fornax are within the White Tiger of the West (西方白虎, Xī Fāng Bái Hǔ).[45]

See also

References

Cited texts

External links

Notes and References

  1. Web site: Hubble Ultra Deep Field . February 2, 2024 . hubblesite.org.
  2. Web site: Lacaille's Southern Planisphere of 1756 . Star Tales . Ridpath, Ian . Self-published . 7 November 2016. Ian Ridpath .
  3. Lacaille, Nicolas Louis . 1756 . Relation abrégée du Voyage fait par ordre du Roi au cap de Bonne-espérance . Mémoires de l'Académie Royale des Sciences . 519–592 [588] . fr.
  4. Book: Wagman, Morton . 2003 . Lost Stars: Lost, Missing and Troublesome Stars from the Catalogues of Johannes Bayer, Nicholas Louis de Lacaille, John Flamsteed, and Sundry Others . The McDonald & Woodward Publishing Company . Blacksburg, Virginia . 978-0-939923-78-6 . 6–7, 152.
  5. Web site: Constellations: Andromeda–Indus . Star Tales . Ridpath, Ian . Ian Ridpath . Self-published . 7 November 2016.
  6. Russell . Henry Norris . Henry Norris Russell . The New International Symbols for the Constellations . . 30 . 469 . 1922PA.....30..469R . 1922.
  7. Fornax, Constellation Boundary . The Constellations . International Astronomical Union . 7 November 2016.
  8. Web site: Fornax . Star Tales . Ridpath, Ian . Ian Ridpath . Self-published . 7 November 2016.
  9. Web site: Naming Stars . IAU.org . 30 July 2018.
  10. Book: Thompson, Mark . A Down to Earth Guide to the Cosmos . Random House . 2013 . 978-1-4481-2691-0 . 132.
  11. Fuhrmann . K. . Chini . R. . Multiplicity among F-type Stars. II . The Astrophysical Journal . 809 . 1 . 107 . 19 . 2015 . 10.1088/0004-637X/809/1/107 . 2015ApJ...809..107F . free .
  12. F. . van Leeuwen . Validation of the New Hipparcos Reduction . Astronomy and Astrophysics . 474 . 2 . 653–64 . 2007 . 2007A&A...474..653V . 10.1051/0004-6361:20078357 . 0708.1752. 18759600 .
  13. Pasinetti Fracassini, L. E.. Pastori, L.. Covino, S.. Pozzi, A.. 2001. Catalogue of Apparent Diameters and Absolute Radii of Stars (CADARS) – Third edition – Comments and statistics. Astronomy & Astrophysics. 367. 2. 521–24. 2001A&A...367..521P. 10.1051/0004-6361:20000451. astro-ph/0012289 . 425754.
  14. Metal Abundance of Red Clump Stars in Baade's Window . Kubiak . M. . McWilliam . A. . Udalski . A. . Gorski . K. . Acta Astronomica . 52 . 159–75 . 2002 . 2002AcA....52..159K.
  15. North . P. . Do SI stars undergo any rotational braking? . Astronomy and Astrophysics . 334 . 181–87 . 1998 . 1998A&A...334..181N . astro-ph/9802286 .
  16. Leone . F. . Catanzaro . G. . Malaroda . S. . A spectroscopic study of the magnetic chemically peculiar star nu Fornacis . Astronomy and Astrophysics . 359 . 635–638 . 2000 . 2000A&A...359..635L .
  17. Samus . N. N. . Durlevich . O. V.. General Catalogue of Variable Stars . VizieR On-line Data Catalog: B/GCVS. Originally Published in: 2009yCat....102025S . 1 . 2009 . 2009yCat....102025S .
  18. Jofré . E. . Petrucci . R. . Saffe . C. . Saker . L. . Artur de la Villarmois . E. . Chavero . C. . Gómez . M. . Mauas . P. J. D. . Stellar parameters and chemical abundances of 223 evolved stars with and without planets . Astronomy & Astrophysics . 1 . 574 . A50 . 2015 . 1410.6422 . 2015A&A...574A..50J . 10.1051/0004-6361/201424474 . 53666931 .
  19. Research Consortium on Nearby Stars . . 1 January 2012 . The 100 nearest star systems . RECONS . 12 February 2017. Research Consortium on Nearby Stars .
  20. Lithium in LP944-20 . Pavlenko, Ya. V. . Jones, H. R. A. . Martín, Eduardo L. . Guenther, E. . Kenworthy, M. A. . Zapatero-Osorio, María Rosa . . 380 . 3 . 1285–96 . September 2007 . 10.1111/j.1365-2966.2007.12182.x . free . 2007MNRAS.380.1285P . 0707.0694 . 11186385 .
  21. Method for Determining the Physical Properties of the Coldest Known Brown Dwarfs . Burgasser, Adam J. . Burrows, Adam . Kirkpatrick, J. Davy . The Astrophysical Journal . 639. 2. 1095–1113. 2006 . 10.1086/499344 . 2006ApJ...639.1095B. astro-ph/0510707 . 9291848 .
  22. A Neptune-mass Planet Orbiting the Nearby G Dwarf HD16417 . O’Toole . Simon . Tinney . C. G. . Butler . R. Paul . Jones . Hugh R. A. . Bailey . Jeremy . Carter . Brad D. . Vogt . Steven S. . Laughlin . Gregory . Rivera . Eugenio J. . The Astrophysical Journal . 697 . 2 . 1263–1268 . 2009 . 0902.4024 . 2009ApJ...697.1263O . 10.1088/0004-637X/697/2/1263 . 16341718 .
  23. The HARPS search for southern extra-solar planets XVII. Six long-period giant planets around BD -17 0063, HD 20868, HD 73267, HD 131664, HD 145377, HD 153950 . Moutou . C. . Mayor . M. . Lo Curto . G. . Udry . S. . Bouchy . F. . Benz . W. . Lovis . C. . Naef . D. . Pepe . F. . Queloz . D. . Santos . N. C. . Astronomy and Astrophysics . 496 . 2 . 513–19 . 2009 . 0810.4662 . 2009A&A...496..513M . 10.1051/0004-6361:200810941 . 116707055 .
  24. WASP-64 b and WASP-72 b: two new transiting highly irradiated giant planets . Gillon M, Anderson DR, Collier-Cameron A, Doyle AP, Fumel A, Hellier C, Jehin E, Lendl M, Maxted PF, Montalbán J, Pepe F, Pollacco D, Queloz D, Ségransan D, Smith AM, Smalley B, Southworth J, Triaud AH, Udry S, West RG . Astronomy & Astrophysics . 552. A82. 13 . 2013 . 10.1051/0004-6361/201220561 . 2013A&A...552A..82G. 1210.4257 . 53687206 .
  25. Jordán . A. . Blakeslee . J. P. . Côté . P. . Ferrarese . L. . Infante . L. . Mei . S. . Merritt . D. . David Merritt . Peng . E. W. . Tonry . J. . West . Michael J. . June 2006 . The Astrophysical Journal Supplement Series . 452 . 1 . 141–153 . The ACS Fornax Cluster Survey. I. Introduction to the Survey and Data Reduction Procedures . 2007ApJS..169..213J . 10.1086/512778 . astro-ph/0702320 . 17845709 . 8 .
  26. Drinkwater . Michael J. . Gregg . Michael J. . Colless . Matthew . 19 Feb 2011 . Substructure and Dynamics of the Fornax Cluster . The Astrophysical Journal . 548 . 2 . L139–L142 . 10.1086/319113. astro-ph/0012415 . 11 Mar 2021. 1885/40020 . 13456590 . free .
  27. Book: O'Meara . Stephen James . Deep-Sky Companions: Southern Gems . 2013 . . 978-1-107-01501-2. 107 .
  28. Book: 300 Astronomical Objects: A Visual Reference to the Universe . Wilkins . Jamie . Dunn . Robert . Firefly Books . Buffalo, New York . 2006 . 978-1-55407-175-3.
  29. Web site: Multiwavelength Atlas of Galaxies - NGC 1399 . 2011-06-18.
  30. Web site: NGC 1386 - Galaxy - WIKISKY . WIKISKY . 17 June 2021.
  31. Book: Steinicke, Wolfgang. Observing and Cataloguing Nebulae and Star Clusters: From Herschel to Dreyer's New General Catalogue. August 19, 2010. Cambridge University Press. 9781139490108. 636. en.
  32. Weighing Ultracompact Dwarf Galaxies in the Fornax Cluster . Hilker, Michael . Baumgardt, Holger . Infante, Leopoldo . Drinkwater, Michael . Evstigneeva, Ekaterina . Gregg, Michael . https://web.archive.org/web/20110604174928/http://www.eso.org/sci/publications/messenger/archive/no.129-sep07/messenger-no129-49-52.pdf . 2011-06-04 . live . The Messenger . 129 . September 2007. 129 . 49 . 2007Msngr.129...49H .
  33. Web site: Wall . Mike . Ancient Galaxy May Be Most Distant Ever Seen . December 12, 2012 . . December 12, 2012 . 13.75 Big Bang – 0.38 = 13.37 .
  34. NASA, "NASA's Hubble Finds Most Distant Galaxy Candidate Ever Seen in Universe", 26 January 2011
  35. Web site: 26 January 2011 . Hubble finds a new contender for galaxy distance record . Space Telescope (heic1103 – Science Release) . 2011-01-27.
  36. Web site: HubbleSite. NASA's Hubble Finds Most Distant Galaxy Candidate Ever Seen in Universe. 26 January 2011. https://archive.today/20130415015002/http://hubblesite.org/newscenter/archive/releases/2011/05/text/. 15 April 2013.
  37. 2013ApJ...765L...2B . A Tentative Detection of an Emission Line at 1.6 mum for the z ~ 12 Candidate UDFj-39546284 . The Astrophysical Journal . 765 . 1 . L2 . 2013 . 10.1088/2041-8205/765/1/l2. 1301.0317 . Brammer . Gabriel B.. 119226564 .
  38. 2013ApJ...765L..16B . Photometric Constraints on the Redshift of z ~ 10 Candidate UDFj-39546284 from Deeper WFC3/IR+ACS+IRAC Observations over the HUDF . The Astrophysical Journal . 765 . 1 . L16 . 2013 . 10.1088/2041-8205/765/1/l16. 1211.3105 . Bouwens . R. J. . Oesch . P. A. . Illingworth . G. D. . Labbé . I. . van Dokkum . P. G. . Brammer . G. . Magee . D. . Spitler . L. R. . Franx . M. . Smit . R. . Trenti . M. . Gonzalez . V. . Carollo . C. M.. 118570916 .
  39. News: ESA/Hubble Information Centre . Hubble studies gamma-ray burst with the highest energy ever seen . 20 November 2019 . . 20 November 2019 .
  40. News: Byrd . Deborah . Epic cosmic explosion detected via faster-than-light particles - Space-based observatories detected a violent explosion in a galaxy billions of light-years away. It became the brightest source of high-energy cosmic gamma rays seen so far. Specialized Earth-based telescopes detected it via faster-than-light particles cascading through Earth's atmosphere. . 24 November 2019 . . 24 November 2019 .
  41. Zhang . Ben . Extreme emission seen from γ-ray bursts - Cosmic explosions called γ-ray bursts are the most energetic bursting events in the Universe. Observations of extremely high-energy emission from two γ-ray bursts provide a new way to study these gigantic explosions. . 20 November 2019 . . 575 . 7783 . 448–449 . 10.1038/d41586-019-03503-6 . 1911.09862 . 31748718 . free .
  42. News: Palmer . David . GRB 190114C: Swift detection of a very bright burst with a bright optical counterpart . 14 January 2019 . . 20 November 2019 .
  43. News: Mirzoyan . Razmik . First time detection of a GRB at sub-TeV energies; MAGIC detects the GRB 190114C . 15 January 2019 . . 20 November 2019 .
  44. News: Wood . Tom . Scientists Detect Biggest Explosion In The Universe Since The Big Bang . 22 November 2019 . . 23 November 2019 .
  45. AEEA (Activities of Exhibition and Education in Astronomy) 天文教育資訊網 2006 年 7 月 10 日