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Fomalhaut

January 01, 2024

Fomalhaut (UK: /ˈfɒməlt/, US: /ˈfməlhɔːt/[15]) is the brightest star in the southern constellation of Piscis Austrinus, the Southern Fish, and one of the brightest stars in the night sky. It has the Bayer designation Alpha Piscis Austrini, which is an alternative form of α Piscis Austrini, and is abbreviated Alpha PsA or α PsA. This is a class A star on the main sequence approximately 25 light-years (7.7 pc) from the Sun as measured by the Hipparcos astrometry satellite.[16] Since 1943, the spectrum of this star has served as one of the stable anchor points by which other stars are classified.[17]

Fomalhaut

DSS image of Fomalhaut, field of view 2.7×2.9 degrees.
Credit NASA, ESA, and the Digitized Sky Survey 2. Acknowledgment: Davide De Martin (ESA/Hubble)
Observation data
Epoch J2000      Equinox J2000
Constellation Piscis Austrinus (Fomalhaut A+B), Aquarius (Fomalhaut C)
Pronunciation /ˈfməl.hɔːt/,[1] /fməlˈhɔːt/
Fomalhaut
Right ascension 22h 57m 39.0465s[2]
Declination −29° 37′ 20.050″[2]
Apparent magnitude (V) 1.16[3]
TW Piscis Austrini
Right ascension 22h 56m 24.05256s[4]
Declination −31° 33′ 56.0306″[4]
Apparent magnitude (V) 6.48[5]
LP 876-10
Right ascension 22h 48m 04.47s[6]
Declination −24° 22′ 07.5″[6]
Apparent magnitude (V) 12.618[6]
Characteristics
Spectral type A3 V / K5Vp / M4V[6][7]
U−B color index 0.08 / 1.02 / ?[8]
B−V color index 0.09 / 1.10 / 1.683[6][8]
Variable type None / BY Draconis / ?
Astrometry
Fomalhaut
Radial velocity (Rv)+6.5[citation needed] km/s
Proper motion (μ) RA: +328.95[2] mas/yr
Dec.: −164.67[2] mas/yr
Parallax (π)129.81 ± 0.47 mas[2]
Distance25.13 ± 0.09 ly
(7.70 ± 0.03 pc)
Absolute magnitude (MV)1.72[9]
TW Piscis Austrini
Radial velocity (Rv)+6.79[4] km/s
Proper motion (μ) RA: +330.203[4] mas/yr
Dec.: −158.98[4] mas/yr
Parallax (π)131.5525 ± 0.0275 mas[4]
Distance24.793 ± 0.005 ly
(7.602 ± 0.002 pc)
Absolute magnitude (MV)7.08[9]
Details
Fomalhaut
Mass1.92±0.02[9] M
Radius1.842±0.019[9] R
Luminosity16.63±0.48[9] L
Surface gravity (log g)4.21[10] cgs
Temperature8,590[9] K
Metallicity [Fe/H]−0.03[11] to −0.34[12] dex
Rotational velocity (v sin i)93[10] km/s
Age(4.4±0.4)×108[9] years
TW Piscis Austrini
Mass0.725[4] M
Radius0.75[4] R
Luminosity0.19[9] L
Surface gravity (log g)4.24[5] cgs
Temperature4,575[5] K
Metallicity [Fe/H]−0.09[5] dex
Rotation10.3[13] days
Rotational velocity (v sin i)2.71[5] km/s
Age4.4 × 108[9] years
Other designations
Fomalhaut: α Piscis Austrini, α PsA, Alpha PsA, 24 Piscis Austrini, CPD−30°685, FK5 867, GJ 881, HD 216956, HIP 113368, HR 8728, SAO 191524[14]
TW Piscis Austrini: Fomalhaut B, TW PsA, CD−32°17321, CPD−32°6550, GJ 879, HD 216803, HIP 113283, HR 8721, SAO 214197, LTT 9283
LP 876-10: Fomalhaut C, NLTT 54872, GSC 06964-01226, 2MASS J22480446-2422075
Database references
SIMBADAC
AB
A (Fomalhaut)
B (TW PsA)
C (LP 876-10)
planet b
Exoplanet Archivedata
ARICNSA (Fomalhaut)
B (TW PsA)
Extrasolar Planets
Encyclopaedia		data
A
B
C
Location of Fomalhaut A, B, C

It is classified as a Vega-like star that emits excess infrared radiation,[18][19] indicating it is surrounded by a circumstellar disk.[20] Fomalhaut, K-type main-sequence star TW Piscis Austrini, and M-type, red dwarf star LP 876-10 constitute a triple system, even though the companions are separated by approximately 8 degrees.[21][22]

Fomalhaut was the first stellar system with an extrasolar planet candidate imaged at visible wavelengths, designated Fomalhaut b. However, analyses in 2019 and 2023 of existing and new observations indicate that Fomalhaut b is not a planet, but rather an expanding region of debris from a massive planetesimal collision.[23][24][19]

Nomenclature edit

 
Fomalhaut is the brightest star in the constellation of Piscis Austrinus (center).

α Piscis Austrini, or Alpha Piscis Austrini, is the system's Bayer designation. It also bears the Flamsteed designation of 24 Piscis Austrini. The classical astronomer Ptolemy put it in Aquarius, as well as Piscis Austrinus. In the 17th century, Johann Bayer firmly planted it in the primary position of Piscis Austrinus. Following Ptolemy, John Flamsteed in 1725 additionally denoted it 79 Aquarii. The current designation reflects modern consensus on Bayer's decision, that the star belongs in Piscis Austrinus.[25] Under the rules for naming objects in multiple star systems, the three components – Fomalhaut, TW Piscis Austrini and LP 876-10 – are designated A, B and C, respectively.[26]

The star's traditional name derives from Fom al-Haut from scientific Arabic فم الحوت fam al-ḥūt (al-janūbī) "the mouth of the [Southern] Fish" (literally, "mouth of the whale"), a translation of how Ptolemy labeled it.[27][28] In 2016, the International Astronomical Union organized a Working Group on Star Names (WGSN)[29] to catalog and standardize proper names for stars. The WGSN's first bulletin of July 2016[30] included a table of the first two batches of names approved by the WGSN, which included the name Fomalhaut for this star.

In July 2014, the International Astronomical Union (IAU) launched NameExoWorlds, a process for giving proper names to certain exoplanets.[31] The process involved public nomination and voting for the new names.[32] In December 2015, the IAU announced the winning name was Dagon for Fomalhaut b.[33] The winning name was proposed by Todd Vaccaro and forwarded by the St. Cloud State University Planetarium of St. Cloud, Minnesota, United States of America, to the IAU for consideration.[34] Dagon was a Semitic deity, often represented as half-man, half-fish.[35]

Fomalhaut A edit

 
Dust ring around Fomalhaut from the Atacama Large Millimeter/submillimeter Array (ALMA)[36]

At a declination of −29.6°, Fomalhaut is located south of the celestial equator, and hence is best viewed from the Southern Hemisphere. However, its southerly declination is not as great as that of stars such as Acrux, Alpha Centauri and Canopus, meaning that, unlike them, Fomalhaut is visible from a large part of the Northern Hemisphere as well, being best seen in autumn. Its declination is greater than that of Sirius and similar to that of Antares. At 40°N, Fomalhaut rises above the horizon for eight hours and reaches only 20° above the horizon, while Capella, which rises at approximately the same time, will stay above the horizon for twenty hours. Fomalhaut can be located in northern latitudes by the fact that the western (right-hand) side of the Square of Pegasus points to it. Continuing the line from Beta to Alpha Pegasi towards the southern horizon, Fomalhaut is about 45˚[clarification needed] south of Alpha Pegasi, with no bright stars in between.[37]

Properties edit

Fomalhaut is a young star, for many years thought to be only 100 to 300 million years old, with a potential lifespan of a billion years.[38][39] A 2012 study gave a slightly higher age of 440±40 million years.[9] The surface temperature of the star is around 8,590 K (8,320 °C). Fomalhaut's mass is about 1.92 times that of the Sun, its luminosity is about 16.6 times greater, and its diameter is roughly 1.84 times as large.[9]

Fomalhaut is slightly metal-deficient compared to the Sun, which means it is composed of a smaller percentage of elements other than hydrogen and helium.[10] The metallicity is typically determined by measuring the abundance of iron in the photosphere relative to the abundance of hydrogen. A 1997 spectroscopic study measured a value equal to 93% of the Sun's abundance of iron.[11][nb 1] A second 1997 study deduced a value of 78%, by assuming Fomalhaut has the same metallicity as the neighboring star TW Piscis Austrini, which has since been argued to be a physical companion.[9][40] In 2004, a stellar evolutionary model of Fomalhaut yielded a metallicity of 79%.[10] Finally, in 2008, a spectroscopic measurement gave a significantly lower value of 46%.[12]

Fomalhaut has been claimed to be one of approximately 16 stars belonging to the Castor Moving Group. This is an association of stars which share a common motion through space, and have been claimed to be physically associated. Other members of this group include Castor and Vega. The moving group has an estimated age of 200±100 million years and originated from the same location.[38] More recent work has found that purported members of the Castor Moving Group appear to not only have a wide range of ages, but their velocities are too different to have been possibly associated with one another in the distant past.[21] Hence, "membership" in this dynamical group has no bearing on the age of the Fomalhaut system.[21]

Debris disks and suspected planets edit

See also: Fomalhaut b
 
Image of the asteroid belt by the James Webb Space Telescope[41] with annotations by NASA.
 
This image shows the discovery features in the debris disk of Fomalhaut from the James Webb Space Telescope (JWST) as well as overlays of Hubble Space Telescope (HST) data and the Atacama Large Millimeter/submillimeter Array (ALMA).
 
The debris disk around the star
 
Debris ring around Fomalhaut showing location of Fomalhaut b—imaged by Hubble Space Telescope's coronagraph.
(January 8, 2013; North is up, East left) (NASA).

Fomalhaut is surrounded by several debris disks.

The inner disk is a high-carbon small-grain (10–300 nm) ash disk, clustering at 0.1 AU from the star. Next is a disk of larger particles, with inner edge 0.4-1 AU of the star. The innermost disk is unexplained as yet.[20]

The outermost disk is at a radial distance of 133 AU (1.99×1010 km; 1.24×1010 mi), in a toroidal shape with a very sharp inner edge, all inclined 24 degrees from edge-on.[42][43] The dust is distributed in a belt about 25 AU wide. The geometric center of the disk is offset by about 15 AU (2.2×109 km; 1.4×109 mi) from Fomalhaut.[44] The disk is sometimes referred to as "Fomalhaut's Kuiper belt". Fomalhaut's dusty disk is believed to be protoplanetary,[45] and emits considerable infrared radiation. Measurements of Fomalhaut's rotation indicate that the disk is located in the star's equatorial plane, as expected from theories of star and planet formation.[46]

Herschel Space Observatory images of Fomalhaut, analysed in 2012, reveal that a large amount of fluffy micrometer-sized dust is present in the outer dust belt. Because such dust is expected to be blown out of the system by stellar radiation pressure on short timescales, its presence indicates a constant replenishment by collisions of planetesimals. The fluffy morphology of the grains suggests a cometary origin. The collision rate is estimated to be approximately 2000 kilometre-sized comets per day.[47] Observations of this outer dust ring by the Atacama Large Millimeter Array also suggested the possible existence of two planets in the system.[48] If there are additional planets from 4 to 10 AU, they must be under 20 MJ; if from 2.5 outward, then 20 MJ.[49]

On November 13, 2008, astronomers announced an extrasolar planet candidate, orbiting just inside the outer debris ring. This was the first extrasolar orbiting object candidate to be directly imaged in visible light, captured by the Hubble Space Telescope.[50][51] The mass of the tentative planet, Fomalhaut b, was estimated to be less than three times the mass of Jupiter, and at least the mass of Neptune. However, M-band images taken from the MMT Observatory put strong limits on the existence of gas giants within 40 AU of the star,[52] and Spitzer Space Telescope imaging suggested that the object Fomalhaut b was more likely to be a dust cloud.[53] A later 2019 synthesis of new and existing direct observations of the object confirmed that it is expanding, losing brightness, has not enough mass to detectably perturb the outer ring while crossing it, and is probably a dispersing cloud of debris from a massive planetesimal collision on a hyperbolic orbit destined to leave the Fomalhaut A system.[23] Further 2022 observations with the James Webb Space Telescope in mid-infrared failed to resolve the object in the 25.5 μm MIRI wideband filter wavelength range, reported by the same team to be consistent with the previous result.[19]

The same 2022 JWST imaging data discovered another apparent feature in the outer disk, dubbed the “Great Dust Cloud”.[19] However, another team's analysis, which included other existing data, preferred its interpretation as a coincident background object, not part of the outer ring.[54] Another 2023 study detected 10 point sources around Fomalhaut; all but one of these are background objects, including the "Great Dust Cloud", but the nature of the last is unclear. It may be a background object, or a planetary companion to Fomalhaut.[55]

The Fomalhaut planetary system[20][23][56]
Companion
(in order from star) 		Mass Semimajor axis
(AU) 		Orbital period
(days) 		Eccentricity Inclination Radius
Inner hot disk 0.08–0.11 AU
Outer hot disk 0.21–0.62 AU or 0.88–1.08 AU
10 AU belt 8–12 AU
Interbelt dust disk 35–133 AU
Main belt 133–158 AU −66.1°
Main belt outer halo 158–209 AU

Fomalhaut B (TW Piscis Austrini) edit

Main article: TW Piscis Austrini

Fomalhaut forms a binary star with the K4-type star TW Piscis Austrini (TW PsA), which lies 0.28 parsecs (0.91 light-years) away from Fomalhaut, and its space velocity agrees with that of Fomalhaut within 0.1±0.5 km/s, consistent with being a bound companion. A recent age estimate for TW PsA (400±70 million years) agrees very well with the isochronal age for Fomalhaut (450±40 million years), further arguing for the two stars forming a physical binary.[9]

The designation TW Piscis Austrini is astronomical nomenclature for a variable star. Fomalhaut B is a flare star of the type known as a BY Draconis variable. It varies slightly in apparent magnitude, ranging from 6.44 to 6.49 over a 10.3 day period. While smaller than the Sun, it is relatively large for a flare star. Most flare stars are red M-type dwarfs.

In 2019, a team of researchers analyzing the astrometry, radial velocity measurements, and images of Fomalhaut B suggested the existence of a planet orbiting the star with a mass of 1.2+0.7
−0.6 Jupiter masses, and a poorly defined orbital period with an estimate loosely centering around 25 years.[57]

Fomalhaut C (LP 876-10) edit

Main article: Fomalhaut C

LP 876-10 is also associated with the Fomalhaut system, making it a trinary star. In October 2013, Eric Mamajek and collaborators from the RECONS consortium announced that the previously known high-proper-motion star LP 876-10 had a distance, velocity, and color-magnitude position consistent with being another member of the Fomalhaut system.[21] LP 876-10 was originally catalogued as a high-proper-motion star by Willem Luyten in his 1979 NLTT catalogue; however, a precise trigonometric parallax and radial velocity was only measured quite recently. LP 876-10 is a red dwarf of spectral type M4V, and located even farther from Fomalhaut A than TW PsA—about 5.7° away from Fomalhaut A in the sky, in the neighbouring constellation Aquarius, whereas both Fomalhaut A and TW PsA are located in constellation Piscis Austrinus. Its current separation from Fomalhaut A is about 0.77 parsecs (2.5 light-years), and it is currently located 0.987 parsecs (3.22 light-years) away from TW PsA (Fomalhaut B). LP 876-10 is located well within the tidal radius of the Fomalhaut system, which is 1.9 parsecs (6.2 light-years).[21] Although LP 876-10 is itself catalogued as a binary star in the Washington Double Star Catalog (called "WSI 138"), there was no sign of a close-in stellar companion in the imaging, spectral, or astrometric data in the Mamajek et al. study.[21] In December 2013, Kennedy et al. reported the discovery of a cold dusty debris disk associated with Fomalhaut C, using infrared images from the Herschel Space Observatory. Multiple-star systems hosting multiple debris disks are exceedingly rare.[58]

Etymology and cultural significance edit

Fomalhaut has had various names ascribed to it through time, and has been recognized by many cultures of the northern hemisphere, including the Arabs, Persians, and Chinese. It marked the solstice in 2500 BC. It was also a marker for the worship of Demeter in Eleusis.[59]

  • It was called Hastorang by the Persians, one of the four "royal stars".[28]
  • The Latin names are ōs piscis merīdiāni, ōs piscis merīdionālis, ōs piscis notii "the mouth of the Southern Fish".[28]
  • A folk name among the early Arabs was Difdi‘ al Awwal (الضفدع الأول al-ḍifdiʿ al-awwal) "the first frog" (the second frog is Beta Ceti).[28]
  • The Chinese name 北落師門/北落师门 (Mandarin: Běiluòshīmén), meaning North Gate of the Military Camp, because this star is marking itself and stands alone in North Gate of the Military Camp asterism, Encampment mansion (see: Chinese constellations).[60] 北落师门 (Běiluòshīmén), westernized into Pi Lo Sze Mun by R.H. Allen.[28]
  • To the Moporr Aboriginal people of South Australia, it is a male being called Buunjill.[61] The Wardaman people of the Northern Territory called Fomalhaut Menggen —white cockatoo.[62]

Fomalhaut-Earthwork B, in Mounds State Park near Anderson, Indiana, lines up with the rising of the star Fomalhaut in the fall months, according to the Indiana Department of Natural Resources. In 1980, astronomer Jack Robinson proposed that the rising azimuth of Fomalhaut was marked by cairn placements at both the Bighorn medicine wheel in Wyoming, USA, and the Moose Mountain medicine wheel in Saskatchewan, Canada.[63]

New Scientist magazine termed it the "Great Eye of Sauron", comparing its shape and debris ring to the aforementioned "eye" in the Peter Jackson Lord of the Rings films.[64]

USS Fomalhaut (AK-22) was a United States navy amphibious cargo ship.[65]

See also edit

Notes edit

  1. ^ Calculation of metallicity: if m = [Fe/H], then the ratio of iron to hydrogen for Fomalhaut divided by the ratio of iron to hydrogen for the Sun is given by 10m.

References edit

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External links edit

 
Wikimedia Commons has media related to Fomalhaut.
  • "Fomalhaut". SolStation. Retrieved 23 November 2005.
  • Researchers find that bright nearby double star Fomalhaut is actually a triple (Astronomy magazine : October 8, 2013)


January 01, 2024
fomalhaut, ɔː, brightest, star, southern, constellation, piscis, austrinus, southern, fish, brightest, stars, night, bayer, designation, alpha, piscis, austrini, which, alternative, form, piscis, austrini, abbreviated, alpha, this, class, star, main, sequence,. Fomalhaut UK ˈ f ɒ m e l oʊ t US ˈ f oʊ m e l h ɔː t 15 is the brightest star in the southern constellation of Piscis Austrinus the Southern Fish and one of the brightest stars in the night sky It has the Bayer designation Alpha Piscis Austrini which is an alternative form of a Piscis Austrini and is abbreviated Alpha PsA or a PsA This is a class A star on the main sequence approximately 25 light years 7 7 pc from the Sun as measured by the Hipparcos astrometry satellite 16 Since 1943 the spectrum of this star has served as one of the stable anchor points by which other stars are classified 17 FomalhautDSS image of Fomalhaut field of view 2 7 2 9 degrees Credit NASA ESA and the Digitized Sky Survey 2 Acknowledgment Davide De Martin ESA Hubble Observation dataEpoch J2000 Equinox J2000Constellation Piscis Austrinus Fomalhaut A B Aquarius Fomalhaut C Pronunciation ˈ f oʊ m el h ɔː t 1 f oʊ m el ˈ h ɔː t FomalhautRight ascension 22h 57m 39 0465s 2 Declination 29 37 20 050 2 Apparent magnitude V 1 16 3 TW Piscis AustriniRight ascension 22h 56m 24 05256s 4 Declination 31 33 56 0306 4 Apparent magnitude V 6 48 5 LP 876 10Right ascension 22h 48m 04 47s 6 Declination 24 22 07 5 6 Apparent magnitude V 12 618 6 CharacteristicsSpectral type A3 V K5Vp M4V 6 7 U B color index 0 08 1 02 8 B V color index 0 09 1 10 1 683 6 8 Variable type None BY Draconis AstrometryFomalhautRadial velocity Rv 6 5 citation needed km sProper motion m RA 328 95 2 mas yr Dec 164 67 2 mas yrParallax p 129 81 0 47 mas 2 Distance25 13 0 09 ly 7 70 0 03 pc Absolute magnitude MV 1 72 9 TW Piscis AustriniRadial velocity Rv 6 79 4 km sProper motion m RA 330 203 4 mas yr Dec 158 98 4 mas yrParallax p 131 5525 0 0275 mas 4 Distance24 793 0 005 ly 7 602 0 002 pc Absolute magnitude MV 7 08 9 DetailsFomalhautMass1 92 0 02 9 M Radius1 842 0 019 9 R Luminosity16 63 0 48 9 L Surface gravity log g 4 21 10 cgsTemperature8 590 9 KMetallicity Fe H 0 03 11 to 0 34 12 dexRotational velocity v sin i 93 10 km sAge 4 4 0 4 108 9 yearsTW Piscis AustriniMass0 725 4 M Radius0 75 4 R Luminosity0 19 9 L Surface gravity log g 4 24 5 cgsTemperature4 575 5 KMetallicity Fe H 0 09 5 dexRotation10 3 13 daysRotational velocity v sin i 2 71 5 km sAge4 4 108 9 yearsOther designationsFomalhaut a Piscis Austrini a PsA Alpha PsA 24 Piscis Austrini CPD 30 685 FK5 867 GJ 881 HD 216956 HIP 113368 HR 8728 SAO 191524 14 TW Piscis Austrini Fomalhaut B TW PsA CD 32 17321 CPD 32 6550 GJ 879 HD 216803 HIP 113283 HR 8721 SAO 214197 LTT 9283LP 876 10 Fomalhaut C NLTT 54872 GSC 06964 01226 2MASS J22480446 2422075Database referencesSIMBADACABA Fomalhaut B TW PsA C LP 876 10 planet bExoplanet ArchivedataARICNSA Fomalhaut B TW PsA Extrasolar PlanetsEncyclopaediadataABCLocation of Fomalhaut A B CIt is classified as a Vega like star that emits excess infrared radiation 18 19 indicating it is surrounded by a circumstellar disk 20 Fomalhaut K type main sequence star TW Piscis Austrini and M type red dwarf star LP 876 10 constitute a triple system even though the companions are separated by approximately 8 degrees 21 22 Fomalhaut was the first stellar system with an extrasolar planet candidate imaged at visible wavelengths designated Fomalhaut b However analyses in 2019 and 2023 of existing and new observations indicate that Fomalhaut b is not a planet but rather an expanding region of debris from a massive planetesimal collision 23 24 19 Contents 1 Nomenclature 2 Fomalhaut A 2 1 Properties 2 2 Debris disks and suspected planets 3 Fomalhaut B TW Piscis Austrini 4 Fomalhaut C LP 876 10 5 Etymology and cultural significance 6 See also 7 Notes 8 References 9 External linksNomenclature edit nbsp Fomalhaut is the brightest star in the constellation of Piscis Austrinus center a Piscis Austrini or Alpha Piscis Austrini is the system s Bayer designation It also bears the Flamsteed designation of 24 Piscis Austrini The classical astronomer Ptolemy put it in Aquarius as well as Piscis Austrinus In the 17th century Johann Bayer firmly planted it in the primary position of Piscis Austrinus Following Ptolemy John Flamsteed in 1725 additionally denoted it 79 Aquarii The current designation reflects modern consensus on Bayer s decision that the star belongs in Piscis Austrinus 25 Under the rules for naming objects in multiple star systems the three components Fomalhaut TW Piscis Austrini and LP 876 10 are designated A B and C respectively 26 The star s traditional name derives from Fom al Haut from scientific Arabic فم الحوت fam al ḥut al janubi the mouth of the Southern Fish literally mouth of the whale a translation of how Ptolemy labeled it 27 28 In 2016 the International Astronomical Union organized a Working Group on Star Names WGSN 29 to catalog and standardize proper names for stars The WGSN s first bulletin of July 2016 30 included a table of the first two batches of names approved by the WGSN which included the name Fomalhaut for this star In July 2014 the International Astronomical Union IAU launched NameExoWorlds a process for giving proper names to certain exoplanets 31 The process involved public nomination and voting for the new names 32 In December 2015 the IAU announced the winning name was Dagon for Fomalhaut b 33 The winning name was proposed by Todd Vaccaro and forwarded by the St Cloud State University Planetarium of St Cloud Minnesota United States of America to the IAU for consideration 34 Dagon was a Semitic deity often represented as half man half fish 35 Fomalhaut A edit nbsp Dust ring around Fomalhaut from the Atacama Large Millimeter submillimeter Array ALMA 36 At a declination of 29 6 Fomalhaut is located south of the celestial equator and hence is best viewed from the Southern Hemisphere However its southerly declination is not as great as that of stars such as Acrux Alpha Centauri and Canopus meaning that unlike them Fomalhaut is visible from a large part of the Northern Hemisphere as well being best seen in autumn Its declination is greater than that of Sirius and similar to that of Antares At 40 N Fomalhaut rises above the horizon for eight hours and reaches only 20 above the horizon while Capella which rises at approximately the same time will stay above the horizon for twenty hours Fomalhaut can be located in northern latitudes by the fact that the western right hand side of the Square of Pegasus points to it Continuing the line from Beta to Alpha Pegasi towards the southern horizon Fomalhaut is about 45 clarification needed south of Alpha Pegasi with no bright stars in between 37 Properties edit Fomalhaut is a young star for many years thought to be only 100 to 300 million years old with a potential lifespan of a billion years 38 39 A 2012 study gave a slightly higher age of 440 40 million years 9 The surface temperature of the star is around 8 590 K 8 320 C Fomalhaut s mass is about 1 92 times that of the Sun its luminosity is about 16 6 times greater and its diameter is roughly 1 84 times as large 9 Fomalhaut is slightly metal deficient compared to the Sun which means it is composed of a smaller percentage of elements other than hydrogen and helium 10 The metallicity is typically determined by measuring the abundance of iron in the photosphere relative to the abundance of hydrogen A 1997 spectroscopic study measured a value equal to 93 of the Sun s abundance of iron 11 nb 1 A second 1997 study deduced a value of 78 by assuming Fomalhaut has the same metallicity as the neighboring star TW Piscis Austrini which has since been argued to be a physical companion 9 40 In 2004 a stellar evolutionary model of Fomalhaut yielded a metallicity of 79 10 Finally in 2008 a spectroscopic measurement gave a significantly lower value of 46 12 Fomalhaut has been claimed to be one of approximately 16 stars belonging to the Castor Moving Group This is an association of stars which share a common motion through space and have been claimed to be physically associated Other members of this group include Castor and Vega The moving group has an estimated age of 200 100 million years and originated from the same location 38 More recent work has found that purported members of the Castor Moving Group appear to not only have a wide range of ages but their velocities are too different to have been possibly associated with one another in the distant past 21 Hence membership in this dynamical group has no bearing on the age of the Fomalhaut system 21 Debris disks and suspected planets edit See also Fomalhaut b nbsp Image of the asteroid belt by the James Webb Space Telescope 41 with annotations by NASA nbsp This image shows the discovery features in the debris disk of Fomalhaut from the James Webb Space Telescope JWST as well as overlays of Hubble Space Telescope HST data and the Atacama Large Millimeter submillimeter Array ALMA nbsp The debris disk around the star nbsp Debris ring around Fomalhaut showing location of Fomalhaut b imaged by Hubble Space Telescope s coronagraph January 8 2013 North is up East left NASA Fomalhaut is surrounded by several debris disks The inner disk is a high carbon small grain 10 300 nm ash disk clustering at 0 1 AU from the star Next is a disk of larger particles with inner edge 0 4 1 AU of the star The innermost disk is unexplained as yet 20 The outermost disk is at a radial distance of 133 AU 1 99 1010 km 1 24 1010 mi in a toroidal shape with a very sharp inner edge all inclined 24 degrees from edge on 42 43 The dust is distributed in a belt about 25 AU wide The geometric center of the disk is offset by about 15 AU 2 2 109 km 1 4 109 mi from Fomalhaut 44 The disk is sometimes referred to as Fomalhaut s Kuiper belt Fomalhaut s dusty disk is believed to be protoplanetary 45 and emits considerable infrared radiation Measurements of Fomalhaut s rotation indicate that the disk is located in the star s equatorial plane as expected from theories of star and planet formation 46 Herschel Space Observatory images of Fomalhaut analysed in 2012 reveal that a large amount of fluffy micrometer sized dust is present in the outer dust belt Because such dust is expected to be blown out of the system by stellar radiation pressure on short timescales its presence indicates a constant replenishment by collisions of planetesimals The fluffy morphology of the grains suggests a cometary origin The collision rate is estimated to be approximately 2000 kilometre sized comets per day 47 Observations of this outer dust ring by the Atacama Large Millimeter Array also suggested the possible existence of two planets in the system 48 If there are additional planets from 4 to 10 AU they must be under 20 MJ if from 2 5 outward then 20 MJ 49 On November 13 2008 astronomers announced an extrasolar planet candidate orbiting just inside the outer debris ring This was the first extrasolar orbiting object candidate to be directly imaged in visible light captured by the Hubble Space Telescope 50 51 The mass of the tentative planet Fomalhaut b was estimated to be less than three times the mass of Jupiter and at least the mass of Neptune However M band images taken from the MMT Observatory put strong limits on the existence of gas giants within 40 AU of the star 52 and Spitzer Space Telescope imaging suggested that the object Fomalhaut b was more likely to be a dust cloud 53 A later 2019 synthesis of new and existing direct observations of the object confirmed that it is expanding losing brightness has not enough mass to detectably perturb the outer ring while crossing it and is probably a dispersing cloud of debris from a massive planetesimal collision on a hyperbolic orbit destined to leave the Fomalhaut A system 23 Further 2022 observations with the James Webb Space Telescope in mid infrared failed to resolve the object in the 25 5 mm MIRI wideband filter wavelength range reported by the same team to be consistent with the previous result 19 The same 2022 JWST imaging data discovered another apparent feature in the outer disk dubbed the Great Dust Cloud 19 However another team s analysis which included other existing data preferred its interpretation as a coincident background object not part of the outer ring 54 Another 2023 study detected 10 point sources around Fomalhaut all but one of these are background objects including the Great Dust Cloud but the nature of the last is unclear It may be a background object or a planetary companion to Fomalhaut 55 The Fomalhaut planetary system 20 23 56 Companion in order from star Mass Semimajor axis AU Orbital period days Eccentricity Inclination RadiusInner hot disk 0 08 0 11 AU Outer hot disk 0 21 0 62 AU or 0 88 1 08 AU 10 AU belt 8 12 AU Interbelt dust disk 35 133 AU Main belt 133 158 AU 66 1 Main belt outer halo 158 209 AU Fomalhaut B TW Piscis Austrini editMain article TW Piscis Austrini Fomalhaut forms a binary star with the K4 type star TW Piscis Austrini TW PsA which lies 0 28 parsecs 0 91 light years away from Fomalhaut and its space velocity agrees with that of Fomalhaut within 0 1 0 5 km s consistent with being a bound companion A recent age estimate for TW PsA 400 70 million years agrees very well with the isochronal age for Fomalhaut 450 40 million years further arguing for the two stars forming a physical binary 9 The designation TW Piscis Austrini is astronomical nomenclature for a variable star Fomalhaut B is a flare star of the type known as a BY Draconis variable It varies slightly in apparent magnitude ranging from 6 44 to 6 49 over a 10 3 day period While smaller than the Sun it is relatively large for a flare star Most flare stars are red M type dwarfs In 2019 a team of researchers analyzing the astrometry radial velocity measurements and images of Fomalhaut B suggested the existence of a planet orbiting the star with a mass of 1 2 0 7 0 6 Jupiter masses and a poorly defined orbital period with an estimate loosely centering around 25 years 57 Fomalhaut C LP 876 10 editMain article Fomalhaut C LP 876 10 is also associated with the Fomalhaut system making it a trinary star In October 2013 Eric Mamajek and collaborators from the RECONS consortium announced that the previously known high proper motion star LP 876 10 had a distance velocity and color magnitude position consistent with being another member of the Fomalhaut system 21 LP 876 10 was originally catalogued as a high proper motion star by Willem Luyten in his 1979 NLTT catalogue however a precise trigonometric parallax and radial velocity was only measured quite recently LP 876 10 is a red dwarf of spectral type M4V and located even farther from Fomalhaut A than TW PsA about 5 7 away from Fomalhaut A in the sky in the neighbouring constellation Aquarius whereas both Fomalhaut A and TW PsA are located in constellation Piscis Austrinus Its current separation from Fomalhaut A is about 0 77 parsecs 2 5 light years and it is currently located 0 987 parsecs 3 22 light years away from TW PsA Fomalhaut B LP 876 10 is located well within the tidal radius of the Fomalhaut system which is 1 9 parsecs 6 2 light years 21 Although LP 876 10 is itself catalogued as a binary star in the Washington Double Star Catalog called WSI 138 there was no sign of a close in stellar companion in the imaging spectral or astrometric data in the Mamajek et al study 21 In December 2013 Kennedy et al reported the discovery of a cold dusty debris disk associated with Fomalhaut C using infrared images from the Herschel Space Observatory Multiple star systems hosting multiple debris disks are exceedingly rare 58 Etymology and cultural significance editFomalhaut has had various names ascribed to it through time and has been recognized by many cultures of the northern hemisphere including the Arabs Persians and Chinese It marked the solstice in 2500 BC It was also a marker for the worship of Demeter in Eleusis 59 It was called Hastorang by the Persians one of the four royal stars 28 The Latin names are ōs piscis meridiani ōs piscis meridionalis ōs piscis notii the mouth of the Southern Fish 28 A folk name among the early Arabs was Difdi al Awwal الضفدع الأول al ḍifdiʿ al awwal the first frog the second frog is Beta Ceti 28 The Chinese name 北落師門 北落师门 Mandarin Beiluoshimen meaning North Gate of the Military Camp because this star is marking itself and stands alone in North Gate of the Military Camp asterism Encampment mansion see Chinese constellations 60 北落师门 Beiluoshimen westernized into Pi Lo Sze Mun by R H Allen 28 To the Moporr Aboriginal people of South Australia it is a male being called Buunjill 61 The Wardaman people of the Northern Territory called Fomalhaut Menggen white cockatoo 62 Fomalhaut Earthwork B in Mounds State Park near Anderson Indiana lines up with the rising of the star Fomalhaut in the fall months according to the Indiana Department of Natural Resources In 1980 astronomer Jack Robinson proposed that the rising azimuth of Fomalhaut was marked by cairn placements at both the Bighorn medicine wheel in Wyoming USA and the Moose Mountain medicine wheel in Saskatchewan Canada 63 New Scientist magazine termed it the Great Eye of Sauron comparing its shape and debris ring to the aforementioned eye in the Peter Jackson Lord of the Rings films 64 USS Fomalhaut AK 22 was a United States navy amphibious cargo ship 65 See also editExoasteroid 2M1207 GJ 758 HR 8799 Direct imaging of extrasolar planets Lists of exoplanets List of star systems within 25 30 light yearsNotes edit Calculation of metallicity if m Fe H then the ratio of iron to hydrogen for Fomalhaut divided by the ratio of iron to hydrogen for the Sun is given by 10m References edit Fomalhaut Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required a b c d e van Leeuwen F November 2007 Validation of the new Hipparcos reduction Astronomy and Astrophysics 474 2 653 664 arXiv 0708 1752 Bibcode 2007A amp A 474 653V doi 10 1051 0004 6361 20078357 S2CID 18759600 Ducati J R 2002 VizieR Online Data Catalog Catalogue of Stellar Photometry in Johnson s 11 color system CDS ADC Collection of Electronic Catalogues 2237 0 Bibcode 2002yCat 2237 0D a b c d e f g h Vallenari A et al Gaia collaboration 2023 Gaia Data Release 3 Summary of the content and survey properties Astronomy and Astrophysics 674 A1 arXiv 2208 00211 Bibcode 2023A amp A 674A 1G doi 10 1051 0004 6361 202243940 S2CID 244398875 Gaia DR3 record for this source at VizieR a b c d e Hojjatpanah S et al 2019 Catalog for the ESPRESSO blind radial velocity exoplanet survey Astronomy amp Astrophysics 629 A80 arXiv 1908 04627 Bibcode 2019A amp A 629A 80H doi 10 1051 0004 6361 201834729 S2CID 199552090 a b c d e LP 876 10 Double or multiple star SIMBAD Centre de Donnees astronomiques de Strasbourg Retrieved 30 July 2014 Demory Brice Olivier Segransan Damien Forveille Thierry Queloz Didier Beuzit Jean Luc Delfosse Xavier Di Folco Emmanuel Kervella Pierre Le Bouquin Jean Baptiste Perrier Christian Benisty Myriam Duvert Gilles Hofmann Karl Heinz Lopez Bruno Petrov Romain October 2009 Mass radius relation of low and very low mass stars revisited with the VLTI Astronomy and Astrophysics 505 1 205 215 arXiv 0906 0602 Bibcode 2009A amp A 505 205D doi 10 1051 0004 6361 200911976 S2CID 14786643 a b Johnson H L Iriarte B Mitchell R I Wisniewskj W Z 1966 UBVRIJKL photometry of the bright stars Communications of the Lunar and Planetary Laboratory 4 99 99 Bibcode 1966CoLPL 4 99J a b c d e f g h i j k l m Mamajek E E August 2012 On the Age and Binarity of Fomalhaut Astrophysical Journal Letters 754 2 L20 arXiv 1206 6353 Bibcode 2012ApJ 754L 20M doi 10 1088 2041 8205 754 2 L20 S2CID 119191190 a b c d Di Folco E Thevenin F Kervella P Domiciano de Souza A Coude du Foresto V Segransan D Morel P November 2004 VLTI near IR interferometric observations of Vega like stars Radius and age of a PsA b Leo b Pic ɛ Eri and t Cet Astronomy and Astrophysics 426 2 601 617 Bibcode 2004A amp A 426 601D doi 10 1051 0004 6361 20047189 This paper lists Fe H 0 10 dex a b Dunkin S K Barlow M J Ryan Sean G April 1997 High resolution spectroscopy of Vega like stars I Effective temperatures gravities and photospheric abundances Monthly Notices of the Royal Astronomical Society 286 3 604 616 Bibcode 1997MNRAS 286 604D doi 10 1093 mnras 286 3 604 This paper lists Fe H 0 03 dex a b Saffe C Gomez M Pintado O Gonzalez E October 2008 Spectroscopic metallicities of Vega like stars Astronomy and Astrophysics 490 1 297 305 arXiv 0805 3936 Bibcode 2008A amp A 490 297S doi 10 1051 0004 6361 200810260 S2CID 15059920 This paper lists Fe H 0 34 dex Mamajek Eric E et al 2013 The Solar Neighborhood XXX Fomalhaut C The Astronomical Journal 146 6 154 163 arXiv 1310 0764 Bibcode 2013AJ 146 154M doi 10 1088 0004 6256 146 6 154 S2CID 67821813 V TW PsA Variable of BY Dra type SIMBAD Centre de Donnees astronomiques de Strasbourg Retrieved 20 January 2010 Wells John C 2008 Longman Pronunciation Dictionary 3rd ed Longman ISBN 978 1 4058 8118 0 Perryman Michael 2010 The Making of History s Greatest Star Map Astronomers Universe Heidelberg Springer Verlag Bibcode 2010mhgs book P doi 10 1007 978 3 642 11602 5 ISBN 978 3 642 11601 8 Garrison R F December 1993 Anchor Points for the MK System of Spectral Classification Bulletin of the American Astronomical Society 25 1319 Bibcode 1993AAS 183 1710G Archived from the original on 25 June 2019 Retrieved 4 February 2012 Andrews Robin George 8 May 2023 Webb Telescope Finds a Star Cloaked in 3 Rings of Ruined Worlds Astronomers have gained a new understanding of the chaos that wreathes the bright star Fomalhaut with the help of the powerful space observatory The New York Times Archived from the original on 8 May 2023 Retrieved 8 May 2023 a b c d Gaspar Andras Wolff Schuyler Grace et al 8 May 2023 Spatially resolved imaging of the inner Fomalhaut disk using JWST MIRI Nature Astronomy 7 7 790 798 arXiv 2305 03789 Bibcode 2023NatAs 7 790G doi 10 1038 s41550 023 01962 6 S2CID 258558003 Retrieved 8 May 2023 a b c Mennesson B Absil O Lebreton J Augereau J C Serabyn E Colavita M M Millan Gabet R Liu W Hinz P Thebault P 2012 An interferometric study of the Fomalhaut inner debris disk II Keck Nuller mid infrared observations Astrophysical Journal 763 2 119 arXiv 1211 7143 Bibcode 2013ApJ 763 119M doi 10 1088 0004 637X 763 2 119 S2CID 102339596 a b c d e f Mamajek Eric E Bartlett Jennifer L Seifahrt Andreas Henry Todd J Dieterich Sergio B Lurie John C Kenworthy Matthew A Jao Wei Chun Riedel Adric R Subasavage John P Winters Jennifer G Finch Charlie T Ianna Philip A Bean Jacob 2013 The Solar Neighborhood XXX Fomalhaut C The Astronomical Journal 146 6 154 arXiv 1310 0764 Bibcode 2013AJ 146 154M doi 10 1088 0004 6256 146 6 154 S2CID 67821813 Bob King 1 October 2014 Fomalhaut A crazy wide triple stat Sky amp Telescope Retrieved 13 June 2020 When you next look at Fomalhaut twinkling above the fall leaves put four fingers together and hold them up against the sky They ll cover about 8 or the amount of real estate 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arXiv 1201 4388 Bibcode 2012ApJ 747 116J doi 10 1088 0004 637X 747 2 116 S2CID 119256885 Kennedy Grant M Lovell Joshua B et al May 2023 ALMA and Keck analysis of Fomalhaut field sources JWST s Great Dust Cloud is a background object Monthly Notices of the Royal Astronomical Society 524 2 2698 2704 arXiv 2305 10480 doi 10 1093 mnras stad2058 Ygouf Marie Beichman Charles et al October 2023 Searching for Planets Orbiting Fomalhaut with JWST NIRCam arXiv 2310 15028 astro ph EP Kalas Paul Graham James R Fitzgerald Michael P Clampin Mark 2013 STIS Coronagraphic Imaging of Fomalhaut Main Belt Structure and the Orbit of Fomalhaut b The Astrophysical Journal 775 1 article id 56 arXiv 1305 2222 Bibcode 2013ApJ 775 56K doi 10 1088 0004 637X 775 1 56 S2CID 62877509 De Rosa Robert J Esposito Thomas M Hirsch Lea A Nielsen Eric L Marley Mark S Kalas Paul Wang Jason J Macintosh Bruce 7 October 2019 The Possible Astrometric Signature of a Planetary mass Companion to the Nearby Young Star TW Piscis Austrini Fomalhaut B Constraints from Astrometry Radial Velocities and Direct Imaging Astronomical Journal 158 6 225 arXiv 1910 02965 Bibcode 2019AJ 158 225D doi 10 3847 1538 3881 ab4c9b S2CID 203902656 Kennedy Grant M et al 17 December 2013 Discomapvery of the Fomalhaut C debris disc Monthly Notices of the Royal Astronomical Society 438 1 L96 L100 arXiv 1312 5315 Bibcode 2014MNRAS 438L 96K doi 10 1093 mnrasl slt168 S2CID 53600511 Solitary Fomalhaut guards the southern sky earthsky org Brightest stars 9 September 2021 Fomalhaut had first visible exoplanet cites R H Allen 1963 28 天文教育資訊網 Astronomy Education Information Network Activities of Exhibition and Education in Astronomy AEEA in Chinese 7 July 2006 Dawson James 1881 Australian Aborigines Sydney AU George Robertson p 100 ISBN 0 85575 118 5 Harney Bill Yidumduma Cairns Hugh C 2004 2003 Dark Sparklers revised ed Merimbula New South Wales Hugh C Cairns p 204 ISBN 0 9750908 0 1 Robinson J H September 1980 Fomalhaut and cairn D at the Big Horn and Moose Mountain medicine wheels Bulletin of the Astronomical Society 12 887 Bibcode 1980BAAS 12 887R Semeniuk Ivan 22 June 2005 Hubble spies lord of the stellar rings New Scientist Attack cargo ship Fomalhaut AE 20 navsource org 2 October 2005 Retrieved 25 January 2020 External links edit nbsp Wikimedia Commons has media related to Fomalhaut Fomalhaut SolStation Retrieved 23 November 2005 Astrobites summary of Boley et al 2012 the ALMA observations of the Fomalhaut ring system Eye of Sauron debris ring Researchers find that bright nearby double star Fomalhaut is actually a triple Astronomy magazine October 8 2013 Portals nbsp Astronomy nbsp Stars nbsp Spaceflight nbsp Outer space nbsp Solar System Retrieved from https en wikipedia org w index php title Fomalhaut amp oldid 1192860786, wikipedia, wiki, book, books, library,

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