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Antares

August 31, 2023

This article is about the star. For other uses, see Antares (disambiguation).

Antares is the brightest star in the constellation of Scorpius. It has the Bayer designation α Scorpii, which is Latinised to Alpha Scorpii. Often referred to as "the heart of the scorpion", Antares is flanked by σ Scorpii and τ Scorpii near the center of the constellation. Distinctly reddish when viewed with the naked eye, Antares is a slow irregular variable star that ranges in brightness from an apparent visual magnitude of +0.6 down to +1.6. It is on average the fifteenth-brightest star in the night sky.

Antares
Location of Antares (circled)
Observation data
Epoch J2000      Equinox J2000
Constellation Scorpius
Pronunciation /ænˈtɛərz/ an-TAIR-eez),[1][2]
Right ascension 16h 29m 24.45970s[3]
Declination −26° 25′ 55.2094″[3]
Apparent magnitude (V) 0.6–1.6[4] + 5.5[5]
Characteristics
Evolutionary stage Red supergiant
Spectral type M1.5Iab-Ib[6] + B2.5V[7]
U−B color index +1.34[5]
B−V color index +1.83[5]
Variable type Lc[4]
Astrometry
Radial velocity (Rv)−3.4[8] km/s
Proper motion (μ) RA: −12.11[3] mas/yr
Dec.: −23.30[3] mas/yr
Parallax (π)5.89 ± 1.00 mas[3]
Distanceapprox. 550 ly
(approx. 170 pc)
Absolute magnitude (MV)−5.28[9] (variable)
Details
A
Mass11–14.3[10] M
Radius680[10] (varies by 19%)[11] R
Luminosity75900+53000
−31200[11] L
Surface gravity (log g)−0.1 to −0.2[10] cgs
Temperature3,660±120[10] K
Rotational velocity (v sin i)20[5] km/s
Age15±5[10] Myr
B
Mass7.2[12] M
Radius5.2[12] R
Luminosity2,754[12] L
Surface gravity (log g)3.9[12] cgs
Temperature18,500[13] K
Rotational velocity (v sin i)250[12] km/s
Other designations
Cor Scorpii, Kalb al Akrab, Scorpion's Heart, Vespertilio[14], Alpha Sco, α Sco, 21 Sco, CD−26°11359, FK5 616, HIP 80763, HR 6134, SAO 184415, CCDM J16294-2626, WDS 16294-2626
A: HD 148478, AAVSO 1623-26
B: HD 148479
Database references
SIMBADAntares
α Scorpii A
α Scorpii B

Classified as spectral type M1.5Iab-Ib, Antares is a red supergiant, a large evolved massive star and one of the largest stars visible to the naked eye. Its exact size remains uncertain, but if placed at the center of the Solar System, it would extend out to somewhere between the orbits of Mars and Jupiter. Its mass is calculated to be around 12 times that of the Sun. Antares appears as a single star when viewed with the naked eye, but it is actually a binary star system, with its two components called α Scorpii A and α Scorpii B. The brighter of the pair is the red supergiant, while the fainter is a hot main sequence star of magnitude 5.5. They have a projected separation of about 79.1 Tm (529 AU).

Antares is the brightest and most evolved stellar member of the Scorpius–Centaurus association, the nearest OB association to the Sun. It is a member of the Upper Scorpius subgroup of the association, which contains thousands of stars with a mean age of 11 million years. Antares is located about 170 parsecs (550 ly) from Earth at the rim of the Upper Scorpius, and is illuminating the Rho Ophiuchi cloud complex in its foreground[15]

Nomenclature Edit

 
Antares between τ (lower left) and σ Scorpii. Antares appears white in this WISE false colour infrared image.

α Scorpii (Latinised to Alpha Scorpii) is the star's Bayer designation. Antares has the Flamsteed designation 21 Scorpii, as well as catalogue designations such as HR 6134 in the Bright Star Catalogue and HD 148478 in the Henry Draper Catalogue. As a prominent infrared source, it appears in the Two Micron All-Sky Survey catalogue as 2MASS J16292443-2625549 and the Infrared Astronomical Satellite (IRAS) Sky Survey Atlas catalogue as IRAS 16262–2619. It is also catalogued as a double star WDS J16294-2626 and CCDM J16294-2626. Antares is a variable star and is listed in the General Catalogue of Variable Stars, but as a Bayer-designated star it does not have a separate variable star designation.[16]

Its traditional name Antares derives from the Ancient Greek Ἀντάρης,[17] meaning "rival to-Ares" ("opponent to-Mars"), due to the similarity of its reddish hue to the appearance of the planet Mars.[18] The comparison of Antares with Mars may have originated with early Mesopotamian astronomers[14] which is considered an outdated speculation, because the name of this star in Mesopotamian astronomy has always been "heart of Scorpion" and it was associated with the goddess Lisin.[19] Some scholars have speculated that the star may have been named after Antar, or Antarah ibn Shaddad, the Arab warrior-hero celebrated in the pre-Islamic poems Mu'allaqat.[14] However, the name "Antares" is already proven in the Greek culture, e.g. in Ptolemy's Almagest and Tetrabiblos. In 2016, the International Astronomical Union organised a Working Group on Star Names (WGSN)[20] to catalog and standardise proper names for stars. The WGSN's first bulletin of July 2016[21] included a table of the first two batches of names approved by the WGSN, which included Antares for the star α Scorpii A. It is now so entered in the IAU Catalog of Star Names.[22]

Observation Edit

Antares is visible all night around May 31 of each year, when the star is at opposition to the Sun. Antares then rises at dusk and sets at dawn as seen at the equator.

For two to three weeks on either side of November 30, Antares is not visible in the night sky from mid-northern latitudes, because it is near conjunction with the Sun.[23] In higher northern latitudes, Antares is only visible low in the south in summertime. Higher than 64° northern latitude, the star does not rise at all.

Antares is easier to see from the southern hemisphere due to its southerly declination. In the whole of Antarctica, the star is circumpolar as the whole continent is above 64° S latitude.

History Edit

 
Antares near the Sun on 30 November 2012

Radial velocity variations were observed in the spectrum of Antares in the early 20th century[24] and attempts were made to derive spectroscopic orbits.[25] It became apparent that the small variations could not be due to orbital motion, and were actually caused by pulsation of the star's atmosphere. Even in 1928, it was calculated that the size of the star must vary by about 20%.[26]

Antares was first reported to have a companion star by Johann Tobias Bürg during an occultation on April 13, 1819,[27] although this was not widely accepted and dismissed as a possible atmospheric effect.[28] It was then observed by Scottish astronomer James William Grant FRSE while in India on 23 July 1844.[29] It was rediscovered by Ormsby M. Mitchel in 1846,[30] and measured by William Rutter Dawes in April 1847.[31][32]

In 1952, Antares was reported to vary in brightness. A photographic magnitude range from 3.00 to 3.16 was described.[33] The brightness has been monitored by the American Association of Variable Star Observers since 1945,[34] and it has been classified as an LC slow irregular variable star, whose apparent magnitude slowly varies between extremes of +0.6 and +1.6, although usually near magnitude +1.0. There is no obvious periodicity, but statistical analyses have suggested periods of 1,733 days or 1650±640 days.[4] No separate long secondary period has been detected,[35] although it has been suggested that primary periods longer than a thousand days are analogous to long secondary periods.[4]

Research published in 2018 demonstrated that Ngarrindjeri Aboriginal people from South Australia observed the variability of Antares and incorporated it into their oral traditions as Waiyungari (meaning 'red man').[36]

Occultations and conjunctions Edit

Lunar Occultation of Antares (reappearance) was observed on 2006 May 14 from The Blue Mountains, Australia. Antares B reappears first, followed by Antares A 7.53 seconds later.

Antares is 4.57 degrees south of the ecliptic, one of four first magnitude stars within 6° of the ecliptic (the others are Spica, Regulus and Aldebaran), so it can be occulted by the Moon. The occultation of 31 July 2009 was visible in much of southern Asia and the Middle East.[37][38] Every year around December 2 the Sun passes 5° north of Antares.[23] Lunar occultations of Antares are fairly common, depending on the 18.6-year cycle of the lunar nodes. The last cycle ended in 2010 and the next begins in 2023. Shown at right is a video of a reappearance event, clearly showing events for both components.

Antares can also be occulted by the planets, e.g. Venus, but these events are rare. The last occultation of Antares by Venus took place on September 17, 525 BC; the next one will be November 17, 2400.[39] Other planets have been calculated not to have occulted Antares over the last millennium, nor will they in the next millennium, as most planets stay near the ecliptic and pass north of Antares.[40] Venus will be extremely near Antares on October 19, 2117 and every eight years thereafter through to October 29, 2157 it will pass south of the star.[41]

Illumination of Rho Ophiuchi cloud complex Edit

Antares illuminates foreground parts of the Rho Ophiuchi cloud complex. The illuminated cloud is sometimes referred to as the Antares Nebula or is otherwise identified as VdB 107,[42] Ced 132, DG 141, LBN 1107 and Magakian 668.[citation needed]

Stellar system Edit

α Scorpii is a double star that is thought to form a binary system. The best calculated orbit for the stars is still considered to be unreliable.[43] It describes an almost circular orbit seen nearly edge-on, with a period of 1,218 years and a semi-major axis of about 2.9.[44] Other recent estimates of the period have ranged from 880 years for a calculated orbit,[45] to 2,562 years for a simple Kepler's Law estimate.[46]

Early measurements of the pair found them to be about 3.5″ apart in 1847–49,[32] or 2.5″ apart in 1848.[30] More modern observations consistently give separations around 2.6″ – 2.8″.[47][48][49][50] The variations in the separation are often interpreted as evidence of orbital motion,[7][30] but are more likely to be simply observational inaccuracies with very little true relative motion between the two components.[44]

The pair have a projected separation of about 529 astronomical units (AU) (≈ 80 billion km) at the estimated distance of Antares, giving a minimum value for the distance between them. Spectroscopic examination of the energy states in the outflow of matter from the companion star suggests that the latter is over 220 AU beyond the primary (about 33 billion km).[7]

Antares Edit

 
VLTI reconstructed view of the surface of Antares A
 
(July 2008, outdated). Relative sizes of some planets in the Solar System and several well-known stars, including Antares A:

Antares is a red supergiant star with a stellar classification of M1.5Iab-Ib, and is indicated to be a spectral standard for that class.[6] Due to the nature of the star, the derived parallax measurements have large errors, so that the true distance of Antares is approximately 550 light-years (170 parsecs) from the Sun.[3]

The brightness of Antares at visual wavelengths is about 10,000 times that of the Sun, but because the star radiates a considerable part of its energy in the infrared part of the spectrum, the true bolometric luminosity is around 100,000 times that of the Sun. There is a large margin of error assigned to values for the bolometric luminosity, typically 30% or more. There is also considerable variation between values published by different authors, for example 75,900 L and 97,700 L published in 2012 and 2013.[11][10]

The mass of the star has been calculated to be about 12 M,[11] or 11 to 14.3 M.[10] Comparison of the effective temperature and luminosity of Antares to theoretical evolutionary tracks for massive stars suggest a progenitor mass of 17 M and an age of 12 million years (MYr),[11] or an initial mass of 15 M and an age of 11 to 15 MYr.[10] Massive stars like Antares are expected to explode as supernovae.[51]

 
Comparison between the red supergiant Antares, Arcturus and the Sun, shown as the tiny dot toward the upper right

Like most cool supergiants, Antares's size has much uncertainty due to the tenuous and translucent nature of the extended outer regions of the star. Defining an effective temperature is difficult due to spectral lines being generated at different depths in the atmosphere, and linear measurements produce different results depending on the wavelength observed.[52] In addition, Antares appears to pulsate, varying its radius by 19%.[11] It also varies in temperature by 150 K, lagging 70 days behind radial velocity changes which are likely to be caused by the pulsations.[53]

The diameter of Antares can be measured most accurately using interferometry or observing lunar occultations events. An apparent diameter from occultations 41.3 ± 0.1 milliarcseconds has been published.[54] Interferometry allows synthesis of a view of the stellar disc, which is then represented as a limb-darkened disk surrounded by an extended atmosphere. The diameter of the limb-darkened disk was measured as 37.38±0.06 milliarcseconds in 2009 and 37.31±0.09 milliarcseconds in 2010. The linear radius of the star can be calculated from its angular diameter and distance. However, the distance to Antares is not known with the same accuracy as modern measurements of its diameter.

The Hipparcos satellite's trigonometric parallax of 5.89±1.00 mas[55] leads to a radius of about 680 R.[10] Older radii estimates exceeding 850 R were derived from older measurements of the diameter,[53] but those measurements are likely to have been affected by asymmetry of the atmosphere and the narrow range of infrared wavelengths observed; Antares has an extended shell which radiates strongly at those particular wavelengths.[10] Despite its large size compared to the Sun, Antares is dwarfed by even larger red supergiants, such as VY Canis Majoris or VV Cephei A and Mu Cephei.

Antares, like the similarly sized red supergiant Betelgeuse in the constellation Orion, will almost certainly explode as a supernova,[56] probably in 1.0 to 1.4 million years.[57] For a few months, the Antares supernova could be as bright as the full moon and be visible in daytime.[51]

Antares B Edit

Antares B is a magnitude 5.5 blue-white main-sequence star of spectral type B2.5V; it also has numerous unusual spectral lines suggesting it has been polluted by matter ejected by Antares.[7] It is assumed to be a relatively normal early-B main sequence star with a mass around 7 M, a temperature around 18,500 K, and a radius of about 5 R.[12]

Antares B is normally difficult to see in small telescopes due to glare from Antares, but can sometimes be seen in apertures over 150 millimetres (5.9 inches).[58] It is often described as green, but this is probably either a contrast effect,[59] or the result of the mixing of light from the two stars when they are seen together through a telescope and are too close to be completely resolved. Antares B can sometimes be observed with a small telescope for a few seconds during lunar occultations while Antares is hidden by the Moon.[27] Antares B appears a profound blue or bluish-green color, in contrast to the orange-red Antares.[28][27][30]

Etymology and mythology Edit

 
Antares seen from the ground. The very bright star towards the upper left corner of the frame is Antares.

In the Babylonian star catalogues dating from at least 1100 BCE, Antares was called GABA GIR.TAB, "the Breast of the Scorpion". In MUL.APIN, which dates between 1100 and 700 BC, it is one of the stars of Ea in the southern sky and denotes the breast of the Scorpion goddess Ishhara.[60] Later names that translate as "the Heart of Scorpion" include Calbalakrab from the Arabic قَلْبُ ٱلْعَقْرَبِ Qalb al-Άqrab.[61] This had been directly translated from the Ancient Greek Καρδία Σκορπίου Kardia Skorpiū. Cor Scorpii was a calque of the Greek name rendered in Latin.[14]

In ancient Mesopotamia, Antares may have been known by various names: Urbat, Bilu-sha-ziri ("the Lord of the Seed"), Kak-shisa ("the Creator of Prosperity"), Dar Lugal ("The King"), Masu Sar ("the Hero and the King"), and Kakkab Bir ("the Vermilion Star").[14] In ancient Egypt, Antares represented the scorpion goddess Serket (and was the symbol of Isis in the pyramidal ceremonies).[14] It was called tms n hntt "the red one of the prow". [62]

In Persia Antares was known as Satevis, one of the four "royal stars". In India, it with σ Scorpii and τ Scorpii were Jyeshthā (the eldest or biggest, probably attributing its huge size), one of the nakshatra (Hindu lunar mansions).[14]

The ancient Chinese called Antares 心宿二 (Xīnxiù'èr, "second star of the Heart"), because it was the second star of the mansion Xin (心). It was the national star of the Shang Dynasty, and it was sometimes referred to as (Chinese: 火星; pinyin: Huǒxīng; lit. 'fiery star') because of its reddish appearance.

The Māori people of New Zealand call Antares Rēhua, and regard it as the chief of all the stars. Rēhua is father of Puanga/Puaka (Rigel), an important star in the calculation of the Māori calendar. The Wotjobaluk Koori people of Victoria, Australia, knew Antares as Djuit, son of Marpean-kurrk (Arcturus); the stars on each side represented his wives. The Kulin Kooris saw Antares (Balayang) as the brother of Bunjil (Altair).[63]

In culture Edit

See also: Antares (disambiguation) and Antares in fiction

Antares appears in the flag of Brazil, which displays 27 stars, each representing a federated unit of Brazil. Antares represents the state of Piauí.[64]

The 1995 Oldsmobile Antares concept car is named after the star.[citation needed]

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Further reading Edit

  • Cannon, E.; et al. (March 2021). "The inner circumstellar dust of the red supergiant Antares as seen with VLT/SPHERE/ZIMPOL". Monthly Notices of the Royal Astronomical Society. 502 (1): 369–382. arXiv:2101.02785. Bibcode:2021MNRAS.502..369C. doi:10.1093/mnras/stab018.
  • Johnson, Daniel (September 3, 2020). "Meet Antares: the star that is not Mars". Sky & Telescope. Retrieved 2022-08-27.
  • O'Gorman, E.; et al. (June 2020). "ALMA and VLA reveal the lukewarm chromospheres of the nearby red supergiants Antares and Betelgeuse". Astronomy & Astrophysics. 638: A65. arXiv:2006.08023. Bibcode:2020A&A...638A..65O. doi:10.1051/0004-6361/202037756. S2CID 219484950. A65.
  • Ohnaka, K.; et al. (August 2017). "Vigorous atmospheric motion in the red supergiant star Antares". Nature. 548 (7667): 310–312. arXiv:1708.06372. Bibcode:2017Natur.548..310O. doi:10.1038/nature23445. PMID 28816248. S2CID 4458627.
  • Ohnaka, K. (August 2014). "Imaging the outward motions of clumpy dust clouds around the red supergiant Antares with VLT/VISIR". Astronomy & Astrophysics. 568: A17. arXiv:1407.0715. Bibcode:2014A&A...568A..17O. doi:10.1051/0004-6361/201423893. S2CID 62795432. A17.
  • Percy, John (2014). "Antares: Betelgeuse's Neglected Twin". AAVSO. Retrieved 2019-06-01.
  • Pugh, T.; Gray, David F. (November 2013). "Short Timescale Variations in the Atmosphere of Antares A". The Astrophysical Journal. 777 (1): 10. Bibcode:2013ApJ...777...10P. doi:10.1088/0004-637X/777/1/10. S2CID 120406829. 10.
  • Sanad, M. R.; Bobrowsky, M. (October 2010). "Spectral variability of the α Sco AB binary system observed with IUE". New Astronomy. 15 (7): 646–651. Bibcode:2010NewA...15..646S. doi:10.1016/j.newast.2010.04.002.
  • Marsh, K. A.; et al. (February 2001). "Mid-Infrared Images of the Circumstellar Dust around α Scorpii". The Astrophysical Journal. 548 (2): 861–867. Bibcode:2001ApJ...548..861M. doi:10.1086/319035. S2CID 120293812.
  • Justtanont, K.; et al. (May 1999). "Atomic fine-structure lines in the ISO-SWS spectra of the supergiants alpha Orionis and alpha Scorpii". Astronomy and Astrophysics. 345: 605–610. Bibcode:1999A&A...345..605J.
  • Jennings, Donald E.; Sada, Pedro V. (February 1998). "Water in Betelgeuse and Antares". Science. 279 (5352): 844–847. Bibcode:1998Sci...279..844J. doi:10.1126/science.279.5352.844. PMID 9452380.
  • Bester, M.; et al. (May 1996). "Measurement at 11 Micron Wavelengths of the Diameters of alpha Orionis and alpha Scorpii: Changes in Effective Temperature of alpha Orionis and Very Recent Dust Emission". Astrophysical Journal. 463: 336. Bibcode:1996ApJ...463..336B. doi:10.1086/177246.
  • Bloemhof, E. E.; Danen, R. M. (February 1995). "Direct Measurement of the Inner Radius of the Dust Shell around the Cool Supergiant Star alpha Scorpii". Astrophysical Journal Letters. 440: L93. Bibcode:1995ApJ...440L..93B. doi:10.1086/187769.

External links Edit

 
Wikimedia Commons has media related to Antares.
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  • Best Ever Image of a Star’s Surface and Atmosphere – First map of motion of material on a star other than the Sun


August 31, 2023
antares, this, article, about, star, other, uses, disambiguation, brightest, star, constellation, scorpius, bayer, designation, scorpii, which, latinised, alpha, scorpii, often, referred, heart, scorpion, flanked, scorpii, scorpii, near, center, constellation,. This article is about the star For other uses see Antares disambiguation Antares is the brightest star in the constellation of Scorpius It has the Bayer designation a Scorpii which is Latinised to Alpha Scorpii Often referred to as the heart of the scorpion Antares is flanked by s Scorpii and t Scorpii near the center of the constellation Distinctly reddish when viewed with the naked eye Antares is a slow irregular variable star that ranges in brightness from an apparent visual magnitude of 0 6 down to 1 6 It is on average the fifteenth brightest star in the night sky AntaresLocation of Antares circled Observation dataEpoch J2000 Equinox J2000Constellation ScorpiusPronunciation ae n ˈ t ɛer iː z an TAIR eez 1 2 Right ascension 16h 29m 24 45970s 3 Declination 26 25 55 2094 3 Apparent magnitude V 0 6 1 6 4 5 5 5 CharacteristicsEvolutionary stage Red supergiantSpectral type M1 5Iab Ib 6 B2 5V 7 U B color index 1 34 5 B V color index 1 83 5 Variable type Lc 4 AstrometryRadial velocity Rv 3 4 8 km sProper motion m RA 12 11 3 mas yr Dec 23 30 3 mas yrParallax p 5 89 1 00 mas 3 Distanceapprox 550 ly approx 170 pc Absolute magnitude MV 5 28 9 variable DetailsAMass11 14 3 10 M Radius680 10 varies by 19 11 R Luminosity75900 53000 31200 11 L Surface gravity log g 0 1 to 0 2 10 cgsTemperature3 660 120 10 KRotational velocity v sin i 20 5 km sAge15 5 10 MyrBMass7 2 12 M Radius5 2 12 R Luminosity2 754 12 L Surface gravity log g 3 9 12 cgsTemperature18 500 13 KRotational velocity v sin i 250 12 km sOther designationsCor Scorpii Kalb al Akrab Scorpion s Heart Vespertilio 14 Alpha Sco a Sco 21 Sco CD 26 11359 FK5 616 HIP 80763 HR 6134 SAO 184415 CCDM J16294 2626 WDS 16294 2626A HD 148478 AAVSO 1623 26B HD 148479Database referencesSIMBADAntaresa Scorpii Aa Scorpii BClassified as spectral type M1 5Iab Ib Antares is a red supergiant a large evolved massive star and one of the largest stars visible to the naked eye Its exact size remains uncertain but if placed at the center of the Solar System it would extend out to somewhere between the orbits of Mars and Jupiter Its mass is calculated to be around 12 times that of the Sun Antares appears as a single star when viewed with the naked eye but it is actually a binary star system with its two components called a Scorpii A and a Scorpii B The brighter of the pair is the red supergiant while the fainter is a hot main sequence star of magnitude 5 5 They have a projected separation of about 79 1 Tm 529 AU Antares is the brightest and most evolved stellar member of the Scorpius Centaurus association the nearest OB association to the Sun It is a member of the Upper Scorpius subgroup of the association which contains thousands of stars with a mean age of 11 million years Antares is located about 170 parsecs 550 ly from Earth at the rim of the Upper Scorpius and is illuminating the Rho Ophiuchi cloud complex in its foreground 15 Contents 1 Nomenclature 2 Observation 2 1 History 2 2 Occultations and conjunctions 2 3 Illumination of Rho Ophiuchi cloud complex 3 Stellar system 3 1 Antares 3 2 Antares B 4 Etymology and mythology 5 In culture 6 References 7 Further reading 8 External linksNomenclature Edit Antares between t lower left and s Scorpii Antares appears white in this WISE false colour infrared image a Scorpii Latinised to Alpha Scorpii is the star s Bayer designation Antares has the Flamsteed designation 21 Scorpii as well as catalogue designations such as HR 6134 in the Bright Star Catalogue and HD 148478 in the Henry Draper Catalogue As a prominent infrared source it appears in the Two Micron All Sky Survey catalogue as 2MASS J16292443 2625549 and the Infrared Astronomical Satellite IRAS Sky Survey Atlas catalogue as IRAS 16262 2619 It is also catalogued as a double star WDS J16294 2626 and CCDM J16294 2626 Antares is a variable star and is listed in the General Catalogue of Variable Stars but as a Bayer designated star it does not have a separate variable star designation 16 Its traditional name Antares derives from the Ancient Greek Ἀntarhs 17 meaning rival to Ares opponent to Mars due to the similarity of its reddish hue to the appearance of the planet Mars 18 The comparison of Antares with Mars may have originated with early Mesopotamian astronomers 14 which is considered an outdated speculation because the name of this star in Mesopotamian astronomy has always been heart of Scorpion and it was associated with the goddess Lisin 19 Some scholars have speculated that the star may have been named after Antar or Antarah ibn Shaddad the Arab warrior hero celebrated in the pre Islamic poems Mu allaqat 14 However the name Antares is already proven in the Greek culture e g in Ptolemy s Almagest and Tetrabiblos In 2016 the International Astronomical Union organised a Working Group on Star Names WGSN 20 to catalog and standardise proper names for stars The WGSN s first bulletin of July 2016 21 included a table of the first two batches of names approved by the WGSN which included Antares for the star a Scorpii A It is now so entered in the IAU Catalog of Star Names 22 Observation EditAntares is visible all night around May 31 of each year when the star is at opposition to the Sun Antares then rises at dusk and sets at dawn as seen at the equator For two to three weeks on either side of November 30 Antares is not visible in the night sky from mid northern latitudes because it is near conjunction with the Sun 23 In higher northern latitudes Antares is only visible low in the south in summertime Higher than 64 northern latitude the star does not rise at all Antares is easier to see from the southern hemisphere due to its southerly declination In the whole of Antarctica the star is circumpolar as the whole continent is above 64 S latitude History Edit Antares near the Sun on 30 November 2012Radial velocity variations were observed in the spectrum of Antares in the early 20th century 24 and attempts were made to derive spectroscopic orbits 25 It became apparent that the small variations could not be due to orbital motion and were actually caused by pulsation of the star s atmosphere Even in 1928 it was calculated that the size of the star must vary by about 20 26 Antares was first reported to have a companion star by Johann Tobias Burg during an occultation on April 13 1819 27 although this was not widely accepted and dismissed as a possible atmospheric effect 28 It was then observed by Scottish astronomer James William Grant FRSE while in India on 23 July 1844 29 It was rediscovered by Ormsby M Mitchel in 1846 30 and measured by William Rutter Dawes in April 1847 31 32 In 1952 Antares was reported to vary in brightness A photographic magnitude range from 3 00 to 3 16 was described 33 The brightness has been monitored by the American Association of Variable Star Observers since 1945 34 and it has been classified as an LC slow irregular variable star whose apparent magnitude slowly varies between extremes of 0 6 and 1 6 although usually near magnitude 1 0 There is no obvious periodicity but statistical analyses have suggested periods of 1 733 days or 1650 640 days 4 No separate long secondary period has been detected 35 although it has been suggested that primary periods longer than a thousand days are analogous to long secondary periods 4 Research published in 2018 demonstrated that Ngarrindjeri Aboriginal people from South Australia observed the variability of Antares and incorporated it into their oral traditions as Waiyungari meaning red man 36 Occultations and conjunctions Edit source source source source source source Lunar Occultation of Antares reappearance was observed on 2006 May 14 from The Blue Mountains Australia Antares B reappears first followed by Antares A 7 53 seconds later Antares is 4 57 degrees south of the ecliptic one of four first magnitude stars within 6 of the ecliptic the others are Spica Regulus and Aldebaran so it can be occulted by the Moon The occultation of 31 July 2009 was visible in much of southern Asia and the Middle East 37 38 Every year around December 2 the Sun passes 5 north of Antares 23 Lunar occultations of Antares are fairly common depending on the 18 6 year cycle of the lunar nodes The last cycle ended in 2010 and the next begins in 2023 Shown at right is a video of a reappearance event clearly showing events for both components Antares can also be occulted by the planets e g Venus but these events are rare The last occultation of Antares by Venus took place on September 17 525 BC the next one will be November 17 2400 39 Other planets have been calculated not to have occulted Antares over the last millennium nor will they in the next millennium as most planets stay near the ecliptic and pass north of Antares 40 Venus will be extremely near Antares on October 19 2117 and every eight years thereafter through to October 29 2157 it will pass south of the star 41 Illumination of Rho Ophiuchi cloud complex Edit Antares illuminates foreground parts of the Rho Ophiuchi cloud complex The illuminated cloud is sometimes referred to as the Antares Nebula or is otherwise identified as VdB 107 42 Ced 132 DG 141 LBN 1107 and Magakian 668 citation needed Stellar system Edita Scorpii is a double star that is thought to form a binary system The best calculated orbit for the stars is still considered to be unreliable 43 It describes an almost circular orbit seen nearly edge on with a period of 1 218 years and a semi major axis of about 2 9 44 Other recent estimates of the period have ranged from 880 years for a calculated orbit 45 to 2 562 years for a simple Kepler s Law estimate 46 Early measurements of the pair found them to be about 3 5 apart in 1847 49 32 or 2 5 apart in 1848 30 More modern observations consistently give separations around 2 6 2 8 47 48 49 50 The variations in the separation are often interpreted as evidence of orbital motion 7 30 but are more likely to be simply observational inaccuracies with very little true relative motion between the two components 44 The pair have a projected separation of about 529 astronomical units AU 80 billion km at the estimated distance of Antares giving a minimum value for the distance between them Spectroscopic examination of the energy states in the outflow of matter from the companion star suggests that the latter is over 220 AU beyond the primary about 33 billion km 7 Antares Edit VLTI reconstructed view of the surface of Antares A July 2008 outdated Relative sizes of some planets in the Solar System and several well known stars including Antares A Mercury lt Mars lt Venus lt EarthEarth lt Neptune lt Uranus lt Saturn lt JupiterJupiter lt Wolf 359 lt Sun lt SiriusSirius lt Pollux lt Arcturus lt AldebaranAldebaran lt Rigel lt Antares A lt BetelgeuseBetelgeuse lt Mu Cephei lt VV Cephei A lt VY Canis MajorisAntares is a red supergiant star with a stellar classification of M1 5Iab Ib and is indicated to be a spectral standard for that class 6 Due to the nature of the star the derived parallax measurements have large errors so that the true distance of Antares is approximately 550 light years 170 parsecs from the Sun 3 The brightness of Antares at visual wavelengths is about 10 000 times that of the Sun but because the star radiates a considerable part of its energy in the infrared part of the spectrum the true bolometric luminosity is around 100 000 times that of the Sun There is a large margin of error assigned to values for the bolometric luminosity typically 30 or more There is also considerable variation between values published by different authors for example 75 900 L and 97 700 L published in 2012 and 2013 11 10 The mass of the star has been calculated to be about 12 M 11 or 11 to 14 3 M 10 Comparison of the effective temperature and luminosity of Antares to theoretical evolutionary tracks for massive stars suggest a progenitor mass of 17 M and an age of 12 million years MYr 11 or an initial mass of 15 M and an age of 11 to 15 MYr 10 Massive stars like Antares are expected to explode as supernovae 51 Comparison between the red supergiant Antares Arcturus and the Sun shown as the tiny dot toward the upper rightLike most cool supergiants Antares s size has much uncertainty due to the tenuous and translucent nature of the extended outer regions of the star Defining an effective temperature is difficult due to spectral lines being generated at different depths in the atmosphere and linear measurements produce different results depending on the wavelength observed 52 In addition Antares appears to pulsate varying its radius by 19 11 It also varies in temperature by 150 K lagging 70 days behind radial velocity changes which are likely to be caused by the pulsations 53 The diameter of Antares can be measured most accurately using interferometry or observing lunar occultations events An apparent diameter from occultations 41 3 0 1 milliarcseconds has been published 54 Interferometry allows synthesis of a view of the stellar disc which is then represented as a limb darkened disk surrounded by an extended atmosphere The diameter of the limb darkened disk was measured as 37 38 0 06 milliarcseconds in 2009 and 37 31 0 09 milliarcseconds in 2010 The linear radius of the star can be calculated from its angular diameter and distance However the distance to Antares is not known with the same accuracy as modern measurements of its diameter The Hipparcos satellite s trigonometric parallax of 5 89 1 00 mas 55 leads to a radius of about 680 R 10 Older radii estimates exceeding 850 R were derived from older measurements of the diameter 53 but those measurements are likely to have been affected by asymmetry of the atmosphere and the narrow range of infrared wavelengths observed Antares has an extended shell which radiates strongly at those particular wavelengths 10 Despite its large size compared to the Sun Antares is dwarfed by even larger red supergiants such as VY Canis Majoris or VV Cephei A and Mu Cephei Antares like the similarly sized red supergiant Betelgeuse in the constellation Orion will almost certainly explode as a supernova 56 probably in 1 0 to 1 4 million years 57 For a few months the Antares supernova could be as bright as the full moon and be visible in daytime 51 Antares B Edit Antares B is a magnitude 5 5 blue white main sequence star of spectral type B2 5V it also has numerous unusual spectral lines suggesting it has been polluted by matter ejected by Antares 7 It is assumed to be a relatively normal early B main sequence star with a mass around 7 M a temperature around 18 500 K and a radius of about 5 R 12 Antares B is normally difficult to see in small telescopes due to glare from Antares but can sometimes be seen in apertures over 150 millimetres 5 9 inches 58 It is often described as green but this is probably either a contrast effect 59 or the result of the mixing of light from the two stars when they are seen together through a telescope and are too close to be completely resolved Antares B can sometimes be observed with a small telescope for a few seconds during lunar occultations while Antares is hidden by the Moon 27 Antares B appears a profound blue or bluish green color in contrast to the orange red Antares 28 27 30 Etymology and mythology Edit Antares seen from the ground The very bright star towards the upper left corner of the frame is Antares In the Babylonian star catalogues dating from at least 1100 BCE Antares was called GABA GIR TAB the Breast of the Scorpion In MUL APIN which dates between 1100 and 700 BC it is one of the stars of Ea in the southern sky and denotes the breast of the Scorpion goddess Ishhara 60 Later names that translate as the Heart of Scorpion include Calbalakrab from the Arabic ق ل ب ٱل ع ق ر ب Qalb al Aqrab 61 This had been directly translated from the Ancient Greek Kardia Skorpioy Kardia Skorpiu Cor Scorpii was a calque of the Greek name rendered in Latin 14 In ancient Mesopotamia Antares may have been known by various names Urbat Bilu sha ziri the Lord of the Seed Kak shisa the Creator of Prosperity Dar Lugal The King Masu Sar the Hero and the King and Kakkab Bir the Vermilion Star 14 In ancient Egypt Antares represented the scorpion goddess Serket and was the symbol of Isis in the pyramidal ceremonies 14 It was called tms n hntt the red one of the prow 62 In Persia Antares was known as Satevis one of the four royal stars In India it with s Scorpii and t Scorpii were Jyeshtha the eldest or biggest probably attributing its huge size one of the nakshatra Hindu lunar mansions 14 The ancient Chinese called Antares 心宿二 Xinxiu er second star of the Heart because it was the second star of the mansion Xin 心 It was the national star of the Shang Dynasty and it was sometimes referred to as Chinese 火星 pinyin Huǒxing lit fiery star because of its reddish appearance The Maori people of New Zealand call Antares Rehua and regard it as the chief of all the stars Rehua is father of Puanga Puaka Rigel an important star in the calculation of the Maori calendar The Wotjobaluk Koori people of Victoria Australia knew Antares as Djuit son of Marpean kurrk Arcturus the stars on each side represented his wives The Kulin Kooris saw Antares Balayang as the brother of Bunjil Altair 63 In culture EditSee also Antares disambiguation and Antares in fiction Antares appears in the flag of Brazil which displays 27 stars each representing a federated unit of Brazil Antares represents the state of Piaui 64 The 1995 Oldsmobile Antares concept car is named after the star citation needed References Edit Antares Merriam Webster Dictionary Kunitzsch Paul Smart Tim 2006 A Dictionary of Modern star Names A Short Guide to 254 Star Names and Their Derivations 2nd rev ed Cambridge Massachusetts Sky Pub ISBN 978 1 931559 44 7 a b c d e f 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 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Evans D S June 20 24 1966 The Revision of the General Catalogue of Radial Velocities In Batten Alan Henry Heard John Frederick eds Determination of Radial Velocities and their Applications Proceedings from IAU Symposium no 30 Determination of Radial Velocities and Their Applications Vol 30 University of Toronto International Astronomical Union p 57 Bibcode 1967IAUS 30 57E Buick Tony 2010 Classification of the Stars The Rainbow Sky Patrick Moore s Practical Astronomy Series pp 43 71 doi 10 1007 978 1 4419 1053 0 4 ISBN 978 1 4419 1052 3 ISSN 1431 9756 a b c d e f g h i j Ohnaka K Hofmann K H Schertl D Weigelt G Baffa C Chelli A Petrov R Robbe Dubois S 2013 High spectral resolution imaging of the dynamical atmosphere of the red supergiant Antares in the CO first overtone lines with VLTI AMBER Astronomy amp Astrophysics 555 A24 arXiv 1304 4800 Bibcode 2013A amp A 555A 24O doi 10 1051 0004 6361 201321063 S2CID 56396587 a b c d e f Mark J Pecaut Eric E Mamajek amp Eric J Bubar February 2012 A Revised Age for Upper Scorpius and the Star Formation History among the F type Members of the Scorpius Centaurus OB Association Astrophysical Journal 746 2 154 arXiv 1112 1695 Bibcode 2012ApJ 746 154P doi 10 1088 0004 637X 746 2 154 S2CID 118461108 a b c d e f Kudritzki R P Reimers D 1978 On the absolute scale of mass loss in red giants II Circumstellar absorption lines in the spectrum of alpha Sco B and mass loss of alpha Sco A Astronomy and Astrophysics 70 227 Bibcode 1978A amp A 70 227K Schroder K P Cuntz M April 2007 A critical test of empirical mass loss formulas applied to individual giants and supergiants Astronomy and Astrophysics 465 2 593 601 arXiv astro ph 0702172 Bibcode 2007A amp A 465 593S doi 10 1051 0004 6361 20066633 S2CID 55901104 a b c d e f g Allen R H 1963 Star Names Their Lore and Meaning Reprint ed New York NY Dover Publications Inc pp 364 366 ISBN 978 0 486 21079 7 Melnik A M Dambis A K 2020 Distance scale for high luminosity stars in OB associations and in 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Science in Portugal The Star of Cabral Instituto Camoes Retrieved November 14 2022 Further reading EditCannon E et al March 2021 The inner circumstellar dust of the red supergiant Antares as seen with VLT SPHERE ZIMPOL Monthly Notices of the Royal Astronomical Society 502 1 369 382 arXiv 2101 02785 Bibcode 2021MNRAS 502 369C doi 10 1093 mnras stab018 Johnson Daniel September 3 2020 Meet Antares the star that is not Mars Sky amp Telescope Retrieved 2022 08 27 O Gorman E et al June 2020 ALMA and VLA reveal the lukewarm chromospheres of the nearby red supergiants Antares and Betelgeuse Astronomy amp Astrophysics 638 A65 arXiv 2006 08023 Bibcode 2020A amp A 638A 65O doi 10 1051 0004 6361 202037756 S2CID 219484950 A65 Ohnaka K et al August 2017 Vigorous atmospheric motion in the red supergiant star Antares Nature 548 7667 310 312 arXiv 1708 06372 Bibcode 2017Natur 548 310O doi 10 1038 nature23445 PMID 28816248 S2CID 4458627 Ohnaka K August 2014 Imaging the outward motions of clumpy dust clouds around the red supergiant Antares with VLT VISIR Astronomy amp Astrophysics 568 A17 arXiv 1407 0715 Bibcode 2014A amp A 568A 17O doi 10 1051 0004 6361 201423893 S2CID 62795432 A17 Percy John 2014 Antares Betelgeuse s Neglected Twin AAVSO Retrieved 2019 06 01 Pugh T Gray David F November 2013 Short Timescale Variations in the Atmosphere of Antares A The Astrophysical Journal 777 1 10 Bibcode 2013ApJ 777 10P doi 10 1088 0004 637X 777 1 10 S2CID 120406829 10 Sanad M R Bobrowsky M October 2010 Spectral variability of the a Sco AB binary system observed with IUE New Astronomy 15 7 646 651 Bibcode 2010NewA 15 646S doi 10 1016 j newast 2010 04 002 Marsh K A et al February 2001 Mid Infrared Images of the Circumstellar Dust around a Scorpii The Astrophysical Journal 548 2 861 867 Bibcode 2001ApJ 548 861M doi 10 1086 319035 S2CID 120293812 Justtanont K et al May 1999 Atomic fine structure lines in the ISO SWS spectra of the supergiants alpha Orionis and alpha Scorpii Astronomy and Astrophysics 345 605 610 Bibcode 1999A amp A 345 605J Jennings Donald E Sada Pedro V February 1998 Water in Betelgeuse and Antares Science 279 5352 844 847 Bibcode 1998Sci 279 844J doi 10 1126 science 279 5352 844 PMID 9452380 Bester M et al May 1996 Measurement at 11 Micron Wavelengths of the Diameters of alpha Orionis and alpha Scorpii Changes in Effective Temperature of alpha Orionis and Very Recent Dust Emission Astrophysical Journal 463 336 Bibcode 1996ApJ 463 336B doi 10 1086 177246 Bloemhof E E Danen R M February 1995 Direct Measurement of the Inner Radius of the Dust Shell around the Cool Supergiant Star alpha Scorpii Astrophysical Journal Letters 440 L93 Bibcode 1995ApJ 440L 93B doi 10 1086 187769 External links Edit Wikimedia Commons has media related to Antares Antares on WikiSky DSS2 SDSS GALEX IRAS Hydrogen a X Ray Astrophoto Sky Map Articles and images Best Ever Image of a Star s Surface and Atmosphere First map of motion of material on a star other than the Sun Portals Astronomy Stars Outer space Retrieved from https en wikipedia org w index php title Antares amp oldid 1169981006, wikipedia, wiki, book, books, library,

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