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Pleiades

May 04, 2023

This article is about the star cluster. For other uses of Pleiades or Pléiades, see Pleiades (disambiguation).

The Pleiades (/ˈpl.ədz, ˈpl-, ˈpl-/),[7][8] also known as The Seven Sisters, Messier 45 and other names by different cultures, is an asterism and an open star cluster containing middle-aged, hot B-type stars in the north-west of the constellation Taurus. At a distance of about 444 light years, it is among the nearest star clusters to Earth. It is the nearest Messier object to Earth, and is the most obvious cluster to the naked eye in the night sky. It is also observed to house the reflection nebula NGC 1432, an HII region.[9]

Pleiades
A color-composite image of the Pleiades from the Digitized Sky Survey
Observation data (J2000 epoch)
Right ascension03h 47m 24s[1]
Declination+24° 07′ 00″[1]
Distance444 ly on average[2][3][4][5] (136.2±1.2 pc)
Apparent magnitude (V)1.6[6]
Apparent dimensions (V)110' (arcmin)[6]
Physical characteristics
Other designationsSeven Sisters,[1] M45,[1] Cr 42,[1] Mel 22[1]
Associations
ConstellationTaurus
See also: Open cluster, List of open clusters

The cluster is dominated by hot blue luminous stars that have formed within the last 100 million years. Reflection nebulae around the brightest stars were once thought to be left over material from their formation, but are now considered likely to be an unrelated dust cloud in the interstellar medium through which the stars are currently passing.[10] This dust cloud is estimated to be moving at a speed of approximately 18 km/s relative to the stars in the cluster.[11]

Computer simulations have shown that the Pleiades were probably formed from a compact configuration that resembled the Orion Nebula.[12] Astronomers estimate that the cluster will survive for about another 250 million years, after which it will disperse due to gravitational interactions with its galactic neighborhood.[13]

Together with the open star cluster of the Hyades, the Pleiades form the Golden Gate of the Ecliptic.

Origin of name

The name of the Pleiades comes from Ancient Greek: Πλειάδες.[14] It probably derives from plein ("to sail") because of the cluster's importance in delimiting the sailing season in the Mediterranean Sea: "the season of navigation began with their heliacal rising".[15] However, in mythology the name was used for the Pleiades, seven divine sisters, the name supposedly deriving from that of their mother Pleione and effectively meaning "daughters of Pleione". In reality, the name of the star cluster almost certainly came first, and Pleione was invented to explain it.[16]

Folklore and mythology

See also: Pleiades in folklore and literature
 
The Nebra sky disk, dated circa 1600 BC. The cluster of dots in the upper right portion of the disk is believed to be the Pleiades.
 
1 dollar commemorative silver coin issued in 2020 by the Royal Australian Mint. On the reverse, the Seven Sisters (Pleiades) are represented, according to an ancient story of Australian Indigenous tradition.[17]

The Pleiades are a prominent sight in winter in the Northern Hemisphere, and are easily visible from mid-Southern latitudes. They have been known since antiquity to cultures all around the world,[18] including the Celts (Welsh: Tŵr Tewdws, Irish: Streoillín), Hawaiians (who call them Makaliʻi[19]), Māori (who call them Matariki), Indigenous Australians (from several traditions), the Achaemenid Empire, whence in Farsi (who called them پروین Parvīn or پروی Parvī),[20] the Arabs (who call them الثريا al-Thurayya[21]), the Chinese (who called them mǎo), the Quechua (who call them Qullqa or the storehouse), the Japanese (who call them Subaru (, スバル)), the Maya, the Aztec, the Sioux, the Kiowa,[22][23] and the Cherokee. In Hinduism, the Pleiades are known as Kṛttikā and are scripturally associated with the war-god Kartikeya but the Hindus celebrate the first day (new moon) of the month of Kartik as Diwali, a festival of abundance and lamps. They are also mentioned three times in the Bible.[24][25]

 
Galileo's drawings of the Pleiades star cluster from Sidereus Nuncius

The earliest-known depiction of the Pleiades is likely a Northern German Bronze Age artifact known as the Nebra sky disk, dated to approximately 1600 BC.[26] The Babylonian star catalogues name the Pleiades MULMUL (𒀯𒀯), meaning "stars" (literally "star star"), and they head the list of stars along the ecliptic, reflecting the fact that they were close to the point of vernal equinox around the 23rd century BC. The Ancient Egyptians may have used the names "Followers" and "Ennead" in the prognosis texts of the Calendar of Lucky and Unlucky Days of papyrus Cairo 86637.[27] Some Greek astronomers considered them to be a distinct constellation, and they are mentioned by Hesiod's Works and Days,[28] Homer's Iliad and Odyssey,[29] and the Geoponica.[30] The Pleiades was the most well-known star among pre-Islamic Arabs and so often simply referred to as "the Star" (al Najm).[31] Some scholars of Islam suggested that the Pleiades (ath-thurayya) are the "star" mentioned in Surah An-Najm ("The Star") in the Quran.[32]

Subaru

In Japan, the cluster is mentioned under the name Mutsuraboshi ("six stars") in the 8th-century Kojiki.[33] The cluster is now known in Japan as Subaru.

It was chosen as the name of the Subaru Telescope which is the 8.2-meter (320 in) flagship telescope of the National Astronomical Observatory of Japan. It is located at the Mauna Kea Observatory on the island of Hawaii. It had the largest monolithic primary mirror in the world from its commissioning in 1998 until 2005.[34]

It was chosen as the brand name of Subaru automobiles to reflect the origins of the firm as the joining of five companies, and is depicted in the firm's six-star logo.[35]

Observational history

Galileo Galilei was the first astronomer to view the Pleiades through a telescope. He thereby discovered that the cluster contains many stars too dim to be seen with the naked eye. He published his observations, including a sketch of the Pleiades showing 36 stars, in his treatise Sidereus Nuncius in March 1610.

The Pleiades have long been known to be a physically related group of stars rather than any chance alignment. John Michell calculated in 1767 that the probability of a chance alignment of so many bright stars was only 1 in 500,000, and so surmised that the Pleiades and many other clusters of stars must be physically related.[36] When studies were first made of the stars' proper motions, it was found that they are all moving in the same direction across the sky, at the same rate, further demonstrating that they were related.

Charles Messier measured the position of the cluster and included it as M45 in his catalogue of comet-like objects, published in 1771. Along with the Orion Nebula and the Praesepe cluster, Messier's inclusion of the Pleiades has been noted as curious, as most of Messier's objects were much fainter and more easily confused with comets—something that seems scarcely possible for the Pleiades. One possibility is that Messier simply wanted to have a larger catalogue than his scientific rival Lacaille, whose 1755 catalogue contained 42 objects, and so he added some bright, well-known objects to boost his list.[37]

Edme-Sébastien Jeaurat then drew in 1782 a map of 64 stars of the Pleiades from his observations in 1779, which he published in 1786.[38][39][40]

Distance

 
Location of Pleiades (circled) in the night sky

The distance to the Pleiades can be used as a key first step to calibrate the cosmic distance ladder. As the cluster is relatively close to the Earth, its distance should be relatively easy to measure and has been estimated by many methods. Accurate knowledge of the distance allows astronomers to plot a Hertzsprung–Russell diagram for the cluster, which, when compared to those plotted for clusters whose distance is not known, allows their distances to be estimated. Other methods can then extend the distance scale from open clusters to galaxies and clusters of galaxies, and a cosmic distance ladder can be constructed. Ultimately astronomers' understanding of the age and future evolution of the universe is influenced by their knowledge of the distance to the Pleiades. Yet some authors argue that the controversy over the distance to the Pleiades discussed below is a red herring, since the cosmic distance ladder can (presently) rely on a suite of other nearby clusters where consensus exists regarding the distances as established by the Hipparcos satellite and independent means (e.g., the Hyades, Coma Berenices cluster, etc.).[3]

 
Animation of proper motion in 400,000 years—cross-eyed viewing   (click for viewing guide)

Measurements of the distance have elicited much controversy. Results prior to the launch of the Hipparcos satellite generally found that the Pleiades were about 135 parsecs (pc) away from Earth. Data from Hipparcos yielded a surprising result, namely a distance of only 118 pc by measuring the parallax of stars in the cluster—a technique that should yield the most direct and accurate results. Later work consistently argued that the Hipparcos distance measurement for the Pleiades was erroneous.[3][4][5][41][42][43] In particular, distances derived to the cluster via the Hubble Space Telescope and infrared color-magnitude diagram fitting (so-called "spectroscopic parallax") favor a distance between 135 and 140 pc;[3][41] a dynamical distance from optical interferometric observations of the Pleiad double Atlas favors a distance of 133 to 137 pc.[43] However, the author of the 2007–2009 catalog of revised Hipparcos parallaxes reasserted that the distance to the Pleiades is ~120 pc and challenged the dissenting evidence.[2] In 2012, Francis and Anderson[44] proposed that a systematic effect on Hipparcos parallax errors for stars in clusters biases calculation using the weighted mean and gave a Hipparcos parallax distance of 126 pc and photometric distance 132 pc based on stars in the AB Doradus, Tucana-Horologium, and Beta Pictoris moving groups, which are all similar in age and composition to the Pleiades. Those authors note that the difference between these results can be attributed to random error. More recent results using very-long-baseline interferometry (VLBI) (August 2014) and preliminary solutions using Gaia Data Release 1 (September 2016) and Gaia Data Release 2 (August 2018), determine distances of 136.2 ± 1.2 pc,[45] 134 ± 6 pc[46] and 136.2 ± 5.0 pc,[47] respectively. The Gaia Data Release 1 team was cautious about their result and the VLBI authors assert "that the Hipparcos-measured distance to the Pleiades cluster is in error".

Selected distance estimates to the Pleiades
Year Distance (pc) Notes
1999 125 Hipparcos[48]
2004 134.6 ± 3.1 Hubble Fine Guidance Sensor[41]
2009 120.2 ± 1.9 Revised Hipparcos[2]
2014 136.2 ± 1.2 Very-long-baseline interferometry[45]
2016 134 ± 6 Gaia Data Release 1[46]
2018 136.2 ± 5.0 Gaia Data Release 2[47]

For another distance debate see Polaris#Distance, also with a different measurement from Hipparcos, although this time it suggested a greater distance.

Composition

 
A map of the Pleiades

The cluster core radius is about 8 light-years and tidal radius is about 43 light-years. The cluster contains over 1,000 statistically confirmed members, a figure that excludes an unresolved likely further number of binary stars.[49] Its light is dominated by young, hot blue stars, up to 14 of which can be seen with the naked eye depending on local observing conditions and visual acuity of the observer. The arrangement of the brightest stars is somewhat similar to Ursa Major and Ursa Minor. The total mass contained in the cluster is estimated to be about 800 solar masses and is dominated by fainter and redder stars.[49] An estimate of the frequency of binary stars in the Pleiades is about 57%.[50]

The cluster contains many brown dwarfs, which are objects with less than about 8% of the Sun's mass, not heavy enough for nuclear fusion reactions to start in their cores and become proper stars. They may constitute up to 25% of the total population of the cluster, although they contribute less than 2% of the total mass.[51] Astronomers have made great efforts to find and analyse brown dwarfs in the Pleiades and other young clusters, because they are still relatively bright and observable, while brown dwarfs in older clusters have faded and are much more difficult to study.

Brightest stars

The nine brightest stars of the Pleiades are named for the Seven Sisters of Greek mythology: Sterope, Merope, Electra, Maia, Taygeta, Celaeno, and Alcyone, along with their parents Atlas and Pleione. As daughters of Atlas, the Hyades were sisters of the Pleiades. The following table gives details of the brightest stars in the cluster:

Pleiades bright stars
Name Pronunciation (IPA) Designation Apparent magnitude Stellar classification Distance (ly)[52]
Alcyone /ælˈs.ən/ Eta (25) Tauri 2.86 B7IIIe 409±50
Atlas /ˈætləs/ 27 Tauri 3.62 B8III 387±26
Electra /əˈlɛktrə/ 17 Tauri 3.70 B6IIIe 375±23
Maia /ˈm.ə/ 20 Tauri 3.86 B7III 344±25
Merope /ˈmɛrəp/ 23 Tauri 4.17 B6IVev 344±16
Taygeta /tˈɪətə/ 19 Tauri 4.29 B6IV 364±16
Pleione /ˈplən, ˈpl-/ 28 (BU) Tauri 5.09 (var.) B8IVpe 422±11
Celaeno /səˈln/ 16 Tauri 5.44 B7IV 434±10
Asterope or Sterope I /əˈstɛrəp/ 21 Tauri 5.64 B8Ve 431.1±7.5
Sterope II /ˈstɛrəp/ 22 Tauri 6.41 B9V 431.1±7.5
HD 23753 5.44 B9Vn 420±10
HD 23923 6.16 B8V 374.04
HD 23853 6.59 B9.5V 398.73
HD 23410 6.88 A0V 395.82

Age and future evolution

 
Stars of Pleiades with color and 10,000-year backwards proper motion shown

Ages for star clusters can be estimated by comparing the Hertzsprung–Russell diagram for the cluster with theoretical models of stellar evolution. Using this technique, ages for the Pleiades of between 75 and 150 million years have been estimated. The wide spread in estimated ages is a result of uncertainties in stellar evolution models, which include factors such as convective overshoot, in which a convective zone within a star penetrates an otherwise non-convective zone, resulting in higher apparent ages.

Another way of estimating the age of the cluster is by looking at the lowest-mass objects. In normal main-sequence stars, lithium is rapidly destroyed in nuclear fusion reactions. Brown dwarfs can retain their lithium, however. Due to lithium's very low ignition temperature of 2.5 × 106 K, the highest-mass brown dwarfs will burn it eventually, and so determining the highest mass of brown dwarfs still containing lithium in the cluster can give an idea of its age. Applying this technique to the Pleiades gives an age of about 115 million years.[53][54]

The cluster is slowly moving in the direction of the feet of what is currently the constellation of Orion. Like most open clusters, the Pleiades will not stay gravitationally bound forever. Some component stars will be ejected after close encounters with other stars; others will be stripped by tidal gravitational fields. Calculations suggest that the cluster will take about 250 million years to disperse, with gravitational interactions with giant molecular clouds and the spiral arms of our galaxy also hastening its demise.[55]

Reflection nebulosity

 
Hubble Space Telescope image of reflection nebulosity near Merope (IC 349)

With larger amateur telescopes, the nebulosity around some of the stars can be easily seen; especially when long-exposure photographs are taken. Under ideal observing conditions, some hint of nebulosity around the cluster may even be seen with small telescopes or average binoculars. It is a reflection nebula, caused by dust reflecting the blue light of the hot, young stars.

It was formerly thought that the dust was left over from the formation of the cluster, but at the age of about 100 million years generally accepted for the cluster, almost all the dust originally present would have been dispersed by radiation pressure. Instead, it seems that the cluster is simply passing through a particularly dusty region of the interstellar medium.

Studies show that the dust responsible for the nebulosity is not uniformly distributed, but is concentrated mainly in two layers along the line of sight to the cluster. These layers may have been formed by deceleration due to radiation pressure as the dust has moved towards the stars.[56]

Possible planets

Analyzing deep-infrared images obtained by the Spitzer Space Telescope and Gemini North telescope, astronomers discovered that one of the cluster's stars, HD 23514, which has a mass and luminosity a bit greater than that of the Sun, is surrounded by an extraordinary number of hot dust particles. This could be evidence for planet formation around HD 23514.[57]

Videos

A 3D model of the Pleiades open cluster from the Galaxy Map app (iOS/Android)

Gallery

See also

References

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  57. ^ ScienceDaily (2007). "Planets Forming In Pleiades Star Cluster, Astronomers Report". Retrieved 2012-11-15.

External links

 
Look up Pleiades in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Pleiades (star cluster).
 
Wikiquote has quotations related to Pleiades.
  • The Pleiades on WikiSky: DSS2, SDSS, GALEX, IRAS, Hydrogen α, X-Ray, Astrophoto, Sky Map, Articles and images
  • The Pleiades (M45) At the astro-photography site of T. Yoshida.
  • Information on the Pleiades from SEDS
  • NightSkyInfo.com: The Pleiades
  • first Doppler image of a Pleiades solar-type G dwarf – HII314, Strassmeier & Rice 2001, A&A 377, 264
  • Dark Atmospheres Photography (deep nebulosity exposure)
  • Hurst, John; Lawrence, Pete; Crowther, Paul. "M45 – The Pleiades". Deep SkyVideos. Brady Haran.
  • The Pleiades (M45) at Constellation Guide
  • Warburg Institute Iconographic Database (medieval and early modern images of the Pleiades)


May 04, 2023
pleiades, this, article, about, star, cluster, other, uses, pléiades, disambiguation, also, known, seven, sisters, messier, other, names, different, cultures, asterism, open, star, cluster, containing, middle, aged, type, stars, north, west, constellation, tau. This article is about the star cluster For other uses of Pleiades or Pleiades see Pleiades disambiguation The Pleiades ˈ p l iː e d iː z ˈ p l eɪ ˈ p l aɪ 7 8 also known as The Seven Sisters Messier 45 and other names by different cultures is an asterism and an open star cluster containing middle aged hot B type stars in the north west of the constellation Taurus At a distance of about 444 light years it is among the nearest star clusters to Earth It is the nearest Messier object to Earth and is the most obvious cluster to the naked eye in the night sky It is also observed to house the reflection nebula NGC 1432 an HII region 9 PleiadesA color composite image of the Pleiades from the Digitized Sky SurveyObservation data J2000 epoch Right ascension03h 47m 24s 1 Declination 24 07 00 1 Distance444 ly on average 2 3 4 5 136 2 1 2 pc Apparent magnitude V 1 6 6 Apparent dimensions V 110 arcmin 6 Physical characteristicsOther designationsSeven Sisters 1 M45 1 Cr 42 1 Mel 22 1 AssociationsConstellationTaurusSee also Open cluster List of open clustersThe cluster is dominated by hot blue luminous stars that have formed within the last 100 million years Reflection nebulae around the brightest stars were once thought to be left over material from their formation but are now considered likely to be an unrelated dust cloud in the interstellar medium through which the stars are currently passing 10 This dust cloud is estimated to be moving at a speed of approximately 18 km s relative to the stars in the cluster 11 Computer simulations have shown that the Pleiades were probably formed from a compact configuration that resembled the Orion Nebula 12 Astronomers estimate that the cluster will survive for about another 250 million years after which it will disperse due to gravitational interactions with its galactic neighborhood 13 Together with the open star cluster of the Hyades the Pleiades form the Golden Gate of the Ecliptic Contents 1 Origin of name 2 Folklore and mythology 2 1 Subaru 3 Observational history 4 Distance 5 Composition 6 Brightest stars 7 Age and future evolution 8 Reflection nebulosity 9 Possible planets 10 Videos 11 Gallery 12 See also 13 References 14 External linksOrigin of name EditThe name of the Pleiades comes from Ancient Greek Pleiades 14 It probably derives from plein to sail because of the cluster s importance in delimiting the sailing season in the Mediterranean Sea the season of navigation began with their heliacal rising 15 However in mythology the name was used for the Pleiades seven divine sisters the name supposedly deriving from that of their mother Pleione and effectively meaning daughters of Pleione In reality the name of the star cluster almost certainly came first and Pleione was invented to explain it 16 Folklore and mythology EditSee also Pleiades in folklore and literature The Nebra sky disk dated circa 1600 BC The cluster of dots in the upper right portion of the disk is believed to be the Pleiades 1 dollar commemorative silver coin issued in 2020 by the Royal Australian Mint On the reverse the Seven Sisters Pleiades are represented according to an ancient story of Australian Indigenous tradition 17 The Pleiades are a prominent sight in winter in the Northern Hemisphere and are easily visible from mid Southern latitudes They have been known since antiquity to cultures all around the world 18 including the Celts Welsh Tŵr Tewdws Irish Streoillin Hawaiians who call them Makaliʻi 19 Maori who call them Matariki Indigenous Australians from several traditions the Achaemenid Empire whence in Farsi who called them پروین Parvin or پروی Parvi 20 the Arabs who call them الثريا al Thurayya 21 the Chinese who called them 昴 mǎo the Quechua who call them Qullqa or the storehouse the Japanese who call them Subaru 昴 スバル the Maya the Aztec the Sioux the Kiowa 22 23 and the Cherokee In Hinduism the Pleiades are known as Kṛttika and are scripturally associated with the war god Kartikeya but the Hindus celebrate the first day new moon of the month of Kartik as Diwali a festival of abundance and lamps They are also mentioned three times in the Bible 24 25 Galileo s drawings of the Pleiades star cluster from Sidereus Nuncius The earliest known depiction of the Pleiades is likely a Northern German Bronze Age artifact known as the Nebra sky disk dated to approximately 1600 BC 26 The Babylonian star catalogues name the Pleiades MULMUL 𒀯𒀯 meaning stars literally star star and they head the list of stars along the ecliptic reflecting the fact that they were close to the point of vernal equinox around the 23rd century BC The Ancient Egyptians may have used the names Followers and Ennead in the prognosis texts of the Calendar of Lucky and Unlucky Days of papyrus Cairo 86637 27 Some Greek astronomers considered them to be a distinct constellation and they are mentioned by Hesiod s Works and Days 28 Homer s Iliad and Odyssey 29 and the Geoponica 30 The Pleiades was the most well known star among pre Islamic Arabs and so often simply referred to as the Star al Najm 31 Some scholars of Islam suggested that the Pleiades ath thurayya are the star mentioned in Surah An Najm The Star in the Quran 32 Subaru Edit In Japan the cluster is mentioned under the name Mutsuraboshi six stars in the 8th century Kojiki 33 The cluster is now known in Japan as Subaru It was chosen as the name of the Subaru Telescope which is the 8 2 meter 320 in flagship telescope of the National Astronomical Observatory of Japan It is located at the Mauna Kea Observatory on the island of Hawaii It had the largest monolithic primary mirror in the world from its commissioning in 1998 until 2005 34 It was chosen as the brand name of Subaru automobiles to reflect the origins of the firm as the joining of five companies and is depicted in the firm s six star logo 35 Observational history EditGalileo Galilei was the first astronomer to view the Pleiades through a telescope He thereby discovered that the cluster contains many stars too dim to be seen with the naked eye He published his observations including a sketch of the Pleiades showing 36 stars in his treatise Sidereus Nuncius in March 1610 The Pleiades have long been known to be a physically related group of stars rather than any chance alignment John Michell calculated in 1767 that the probability of a chance alignment of so many bright stars was only 1 in 500 000 and so surmised that the Pleiades and many other clusters of stars must be physically related 36 When studies were first made of the stars proper motions it was found that they are all moving in the same direction across the sky at the same rate further demonstrating that they were related Charles Messier measured the position of the cluster and included it as M45 in his catalogue of comet like objects published in 1771 Along with the Orion Nebula and the Praesepe cluster Messier s inclusion of the Pleiades has been noted as curious as most of Messier s objects were much fainter and more easily confused with comets something that seems scarcely possible for the Pleiades One possibility is that Messier simply wanted to have a larger catalogue than his scientific rival Lacaille whose 1755 catalogue contained 42 objects and so he added some bright well known objects to boost his list 37 Edme Sebastien Jeaurat then drew in 1782 a map of 64 stars of the Pleiades from his observations in 1779 which he published in 1786 38 39 40 Distance Edit Location of Pleiades circled in the night sky The distance to the Pleiades can be used as a key first step to calibrate the cosmic distance ladder As the cluster is relatively close to the Earth its distance should be relatively easy to measure and has been estimated by many methods Accurate knowledge of the distance allows astronomers to plot a Hertzsprung Russell diagram for the cluster which when compared to those plotted for clusters whose distance is not known allows their distances to be estimated Other methods can then extend the distance scale from open clusters to galaxies and clusters of galaxies and a cosmic distance ladder can be constructed Ultimately astronomers understanding of the age and future evolution of the universe is influenced by their knowledge of the distance to the Pleiades Yet some authors argue that the controversy over the distance to the Pleiades discussed below is a red herring since the cosmic distance ladder can presently rely on a suite of other nearby clusters where consensus exists regarding the distances as established by the Hipparcos satellite and independent means e g the Hyades Coma Berenices cluster etc 3 Animation of proper motion in 400 000 years cross eyed viewing click for viewing guide Measurements of the distance have elicited much controversy Results prior to the launch of the Hipparcos satellite generally found that the Pleiades were about 135 parsecs pc away from Earth Data from Hipparcos yielded a surprising result namely a distance of only 118 pc by measuring the parallax of stars in the cluster a technique that should yield the most direct and accurate results Later work consistently argued that the Hipparcos distance measurement for the Pleiades was erroneous 3 4 5 41 42 43 In particular distances derived to the cluster via the Hubble Space Telescope and infrared color magnitude diagram fitting so called spectroscopic parallax favor a distance between 135 and 140 pc 3 41 a dynamical distance from optical interferometric observations of the Pleiad double Atlas favors a distance of 133 to 137 pc 43 However the author of the 2007 2009 catalog of revised Hipparcos parallaxes reasserted that the distance to the Pleiades is 120 pc and challenged the dissenting evidence 2 In 2012 Francis and Anderson 44 proposed that a systematic effect on Hipparcos parallax errors for stars in clusters biases calculation using the weighted mean and gave a Hipparcos parallax distance of 126 pc and photometric distance 132 pc based on stars in the AB Doradus Tucana Horologium and Beta Pictoris moving groups which are all similar in age and composition to the Pleiades Those authors note that the difference between these results can be attributed to random error More recent results using very long baseline interferometry VLBI August 2014 and preliminary solutions using Gaia Data Release 1 September 2016 and Gaia Data Release 2 August 2018 determine distances of 136 2 1 2 pc 45 134 6 pc 46 and 136 2 5 0 pc 47 respectively The Gaia Data Release 1 team was cautious about their result and the VLBI authors assert that the Hipparcos measured distance to the Pleiades cluster is in error Selected distance estimates to the Pleiades Year Distance pc Notes1999 125 Hipparcos 48 2004 134 6 3 1 Hubble Fine Guidance Sensor 41 2009 120 2 1 9 Revised Hipparcos 2 2014 136 2 1 2 Very long baseline interferometry 45 2016 134 6 Gaia Data Release 1 46 2018 136 2 5 0 Gaia Data Release 2 47 For another distance debate see Polaris Distance also with a different measurement from Hipparcos although this time it suggested a greater distance Composition Edit A map of the Pleiades The cluster core radius is about 8 light years and tidal radius is about 43 light years The cluster contains over 1 000 statistically confirmed members a figure that excludes an unresolved likely further number of binary stars 49 Its light is dominated by young hot blue stars up to 14 of which can be seen with the naked eye depending on local observing conditions and visual acuity of the observer The arrangement of the brightest stars is somewhat similar to Ursa Major and Ursa Minor The total mass contained in the cluster is estimated to be about 800 solar masses and is dominated by fainter and redder stars 49 An estimate of the frequency of binary stars in the Pleiades is about 57 50 The cluster contains many brown dwarfs which are objects with less than about 8 of the Sun s mass not heavy enough for nuclear fusion reactions to start in their cores and become proper stars They may constitute up to 25 of the total population of the cluster although they contribute less than 2 of the total mass 51 Astronomers have made great efforts to find and analyse brown dwarfs in the Pleiades and other young clusters because they are still relatively bright and observable while brown dwarfs in older clusters have faded and are much more difficult to study Brightest stars EditThe nine brightest stars of the Pleiades are named for the Seven Sisters of Greek mythology Sterope Merope Electra Maia Taygeta Celaeno and Alcyone along with their parents Atlas and Pleione As daughters of Atlas the Hyades were sisters of the Pleiades The following table gives details of the brightest stars in the cluster Pleiades bright stars Name Pronunciation IPA Designation Apparent magnitude Stellar classification Distance ly 52 Alcyone ae l ˈ s aɪ e n iː Eta 25 Tauri 2 86 B7IIIe 409 50Atlas ˈ ae t l e s 27 Tauri 3 62 B8III 387 26Electra e ˈ l ɛ k t r e 17 Tauri 3 70 B6IIIe 375 23Maia ˈ m eɪ e 20 Tauri 3 86 B7III 344 25Merope ˈ m ɛr e p iː 23 Tauri 4 17 B6IVev 344 16Taygeta t eɪ ˈ ɪ dʒ e t e 19 Tauri 4 29 B6IV 364 16Pleione ˈ p l iː e n iː ˈ p l aɪ 28 BU Tauri 5 09 var B8IVpe 422 11Celaeno s e ˈ l iː n oʊ 16 Tauri 5 44 B7IV 434 10Asterope or Sterope I e ˈ s t ɛr e p iː 21 Tauri 5 64 B8Ve 431 1 7 5Sterope II ˈ s t ɛr e p iː 22 Tauri 6 41 B9V 431 1 7 5 HD 23753 5 44 B9Vn 420 10 HD 23923 6 16 B8V 374 04 HD 23853 6 59 B9 5V 398 73 HD 23410 6 88 A0V 395 82Age and future evolution Edit Stars of Pleiades with color and 10 000 year backwards proper motion shown Ages for star clusters can be estimated by comparing the Hertzsprung Russell diagram for the cluster with theoretical models of stellar evolution Using this technique ages for the Pleiades of between 75 and 150 million years have been estimated The wide spread in estimated ages is a result of uncertainties in stellar evolution models which include factors such as convective overshoot in which a convective zone within a star penetrates an otherwise non convective zone resulting in higher apparent ages Another way of estimating the age of the cluster is by looking at the lowest mass objects In normal main sequence stars lithium is rapidly destroyed in nuclear fusion reactions Brown dwarfs can retain their lithium however Due to lithium s very low ignition temperature of 2 5 106 K the highest mass brown dwarfs will burn it eventually and so determining the highest mass of brown dwarfs still containing lithium in the cluster can give an idea of its age Applying this technique to the Pleiades gives an age of about 115 million years 53 54 The cluster is slowly moving in the direction of the feet of what is currently the constellation of Orion Like most open clusters the Pleiades will not stay gravitationally bound forever Some component stars will be ejected after close encounters with other stars others will be stripped by tidal gravitational fields Calculations suggest that the cluster will take about 250 million years to disperse with gravitational interactions with giant molecular clouds and the spiral arms of our galaxy also hastening its demise 55 Reflection nebulosity Edit Hubble Space Telescope image of reflection nebulosity near Merope IC 349 With larger amateur telescopes the nebulosity around some of the stars can be easily seen especially when long exposure photographs are taken Under ideal observing conditions some hint of nebulosity around the cluster may even be seen with small telescopes or average binoculars It is a reflection nebula caused by dust reflecting the blue light of the hot young stars It was formerly thought that the dust was left over from the formation of the cluster but at the age of about 100 million years generally accepted for the cluster almost all the dust originally present would have been dispersed by radiation pressure Instead it seems that the cluster is simply passing through a particularly dusty region of the interstellar medium Studies show that the dust responsible for the nebulosity is not uniformly distributed but is concentrated mainly in two layers along the line of sight to the cluster These layers may have been formed by deceleration due to radiation pressure as the dust has moved towards the stars 56 Possible planets EditAnalyzing deep infrared images obtained by the Spitzer Space Telescope and Gemini North telescope astronomers discovered that one of the cluster s stars HD 23514 which has a mass and luminosity a bit greater than that of the Sun is surrounded by an extraordinary number of hot dust particles This could be evidence for planet formation around HD 23514 57 Videos Edit source source source source source source source source source source source source A 3D model of the Pleiades open cluster from the Galaxy Map app iOS Android Gallery Edit A star chart of the Pleiades and their nebulae The approximate location of the Pleiades just above the Local Bubble in the middle of this map of the Orion Arm yellow major stellar associations red nebulae grey dark nebulae See also EditAustralian Aboriginal astronomy Pleiades Stozhary MatrikasReferences Edit a b c d e f Cl Melotte 22 SIMBAD Centre de donnees astronomiques de Strasbourg Retrieved 2007 04 20 a b c Van Leeuwen F 2009 Parallaxes and proper motions for 20 open clusters as based on the new Hipparcos catalogue Astronomy and Astrophysics 497 1 209 242 arXiv 0902 1039 Bibcode 2009A amp A 497 209V doi 10 1051 0004 6361 200811382 S2CID 16420237 a b c d Majaess Daniel J Turner David G Lane David J Krajci Tom 2011 Deep Infrared ZAMS Fits to Benchmark Open Clusters Hosting delta Scuti Stars Journal of the American Association of Variable Star Observers Jaavso 39 2 219 arXiv 1102 1705 Bibcode 2011JAVSO 39 219M a b Percival S M Salaris M Groenewegen M A T 2005 The distance to the Pleiades Main sequence fitting in the near infrared Astronomy and Astrophysics 429 3 887 894 arXiv astro ph 0409362 Bibcode 2005A amp A 429 887P doi 10 1051 0004 6361 20041694 S2CID 14842664 a b Zwahlen N North P Debernardi Y Eyer L et al 2004 A purely geometric distance to the binary star Atlas a member of the Pleiades Astronomy and Astrophysics Letters 425 3 L45 arXiv astro ph 0408430 Bibcode 2004A amp A 425L 45Z doi 10 1051 0004 6361 200400062 S2CID 37047575 a b Messier 45 Pleiades Merriam Webster Dictionary Pleiades Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required NGC 1432 Maia Nebula HII Ionized region in Taurus TheSkyLive com theskylive com Retrieved 2022 12 10 Gibson S J Nordsieck K H 2003 The Pleiades Reflection Nebula II Simple Model Constraints on Dust Properties and Scattering Geometry The Astrophysical Journal 589 1 362 377 Bibcode 2003ApJ 589 362G doi 10 1086 374590 White Richard E Bally John May 1993 Interstellar matter near the Pleiades IV The wake of the Pleiades through the interstellar medium in Taurus The Astrophysical Journal 409 234 Bibcode 1993ApJ 409 234W doi 10 1086 172658 eISSN 1538 4357 ISSN 0004 637X Kroupa Pavel Aarseth Sverre Hurley Jarrod 2001 The formation of a bound star cluster From the Orion nebula cluster to the Pleiades Monthly Notices of the Royal Astronomical Society 321 4 699 712 arXiv astro ph 0009470 Bibcode 2001MNRAS 321 699K doi 10 1046 j 1365 8711 2001 04050 x S2CID 11660522 Gendler Robert 2006 A Year in the Life of the Universe A Seasonal Guide to Viewing the Cosmos Voyageur Press p 54 ISBN 978 1610603409 Pleiades Wiktionary 5 August 2021 Pleiad Oxford English Dictionary Online ed Oxford University Press Retrieved 2022 02 15 Subscription or participating institution membership required Robin Hard 2020 The Routledge Handbook of Greek Mythology Partially Based on H J Rose s A Handbook of Greek Mythology Routledge ISBN 978 1 138 65260 6 The Royal Australian Mint looks to the stars to honour Australian Indigenous stories www ramint gov au 3 September 2020 Retrieved 31 December 2020 Julien D Huy Yuri Berezkin How Did the First Humans Perceive the Starry Night On the Pleiades The Retrospective Methods Network Newsletter 2017 pp 100 122 https halshs archives ouvertes fr halshs 01673386 document Makemson Maud Hawaiian Astronomical Concepts PDF Hokulea com Retrieved 31 October 2018 Dehkhoda Ali Akbar Dehkhoda Dictionary Parsi Wiki Allen Richard Hinckley 1963 1899 Star Names Their Lore and Meaning Reprint ed New York NY Dover Publications Inc ISBN 978 0 486 21079 7 Andrews Munya 2004 The Seven Sisters of the Pleiades Stories from Around the World Spinifex Press pp 149 152 ISBN 978 1876756451 Kracht Benjamin 2017 Kiowa Belief and Ritual University of Nebraska Press pp 63 75 139 189 ISBN 978 1496201461 Job 9 9 Job 38 31 and Amos 5 8 James Hastings John Alexander Selbie Andrew Bruce Davidson Samuel Rolles Driver Henry Barclay Swete 1911 Dictionary of the Bible Kir Pleiades Scribner pp 895 896 BBC Science amp Nature Horizon Secrets of the Star Disc BBC 2004 Retrieved 2008 03 25 Jetsu L Porceddu S 2015 Shifting Milestones of Natural Sciences The Ancient Egyptian Discovery of Algol s Period Confirmed PLOS ONE 10 12 e 0144140 23pp arXiv 1601 06990 Bibcode 2015PLoSO 1044140J doi 10 1371 journal pone 0144140 PMC 4683080 PMID 26679699 Hesiod Works and Days 618 23 Theodossiou E Manimanis V N Mantarakis P Dimitrijevic M S 2011 Astronomy and Constellations in the Iliad and Odyssey Journal of Astronomical History and Heritage 14 1 22 Bibcode 2011JAHH 14 22T doi 10 3724 SP J 1440 2807 2011 01 02 ISSN 1440 2807 S2CID 129824469 The Geoponica Agricultural Pursuits page 6 V 1 Archived from the original on 2012 10 12 Retrieved 2011 04 22 dead link Danielle Kira Adams 2018 Rain Stars Set Lunar Stations Rise Multivalent Textures of Pre Islamic Arabian Astronomy and the Hegemonic Discourse of Order PhD University of Arizona pp 105 107 Saqib Hussain The Prophet s Vision in Surat al Najm Journal of the International Qur anic Studies Association 5 2020 97 132 Andrews Munya 2004 The Seven Sisters of the Pleiades Stories from Around the World North Melbourne Victoria Australia Spinifex Press p 293 ISBN 978 1 876756 45 1 The Subaru Telescope web japan org Retrieved 2010 09 22 Fuji Heavy Industries Changes Name to Subaru automotive fleet com Automotive Fleet Magazine May 12 2016 Retrieved 24 June 2016 Michell J 1767 An Inquiry into the probable Parallax and Magnitude of the Fixed Stars from the Quantity of Light which they afford us and the particular Circumstances of their Situation Philosophical Transactions 57 234 264 Bibcode 1767RSPT 57 234M doi 10 1098 rstl 1767 0028 Frommert Hartmut 1998 Messier Questions amp Answers Retrieved 2005 03 01 A New review with literary curiosities and literary intelligence page 326 Paul Henry Maty Printed for the author 1783 Memoires de l Academie des sciences de l Institut de France page 289 Didot freres fils et cie 1786 Edme Sebastien Jeaurat Carte des 64 Principales Etoiles des Playades par M Jeaurat pour le 1 er Janvier 1786 a b c Soderblom D R Nelan E Benedict G F McArthur B et al 2005 Confirmation of Errors in Hipparcos Parallaxes from Hubble Space Telescope Fine Guidance Sensor Astrometry of the Pleiades Astronomical Journal 129 3 1616 1624 arXiv astro ph 0412093 Bibcode 2005AJ 129 1616S doi 10 1086 427860 S2CID 15354711 Turner D G 1979 A reddening free main sequence for the Pleiades cluster Publications of the Astronomical Society of the Pacific 91 642 647 Bibcode 1979PASP 91 642T doi 10 1086 130556 a b Pan X 2004 A distance of 133 137 parsecs to the Pleiades star cluster Nature 427 6972 326 328 Bibcode 2004Natur 427 326P doi 10 1038 nature02296 PMID 14737161 S2CID 4383850 Francis C Anderson E 2012 XHIP II clusters and associations Astronomy Letters 1203 11 4945 arXiv 1203 4945 Bibcode 2012AstL 38 681F doi 10 1134 S1063773712110023 S2CID 119285733 a b Melis Carl Reid Mark J Mioduszewski Amy J Stauffer John R et al 29 August 2014 A VLBI resolution of the Pleiades distance controversy Science 345 6200 1029 1032 arXiv 1408 6544 Bibcode 2014Sci 345 1029M doi 10 1126 science 1256101 PMID 25170147 S2CID 34750246 See also commentary by Girardi Leo 29 August 2014 One good cosmic measure Science 345 6200 1001 1002 Bibcode 2014Sci 345 1001G doi 10 1126 science 1258425 PMID 25170136 S2CID 5359091 a b Anthony G A Brown GAIA Collaboration 2016 Gaia Data Release 1 Summary of the astrometric photometric and survey properties PDF Astronomy and Astrophysics forthcoming article 595 A2 arXiv 1609 04172 Bibcode 2016A amp A 595A 2G doi 10 1051 0004 6361 201629512 S2CID 1828208 retrieved 14 September 2016 a b Abramson Guillermo 20 August 2018 The Distance to the Pleiades According to Gaia DR2 Research Notes of the AAS 2 3 150 Bibcode 2018RNAAS 2 150A doi 10 3847 2515 5172 aada8b Van Leeuwen Floor 1999 HIPPARCOS distance calibrations for 9 open clusters Astronomy and Astrophysics 341 L71 Bibcode 1999A amp A 341L 71V a b Adams Joseph D Stauffer John R Monet David G Skrutskie Michael F et al 2001 The Mass and Structure of the Pleiades Star Cluster from 2MASS Astronomical Journal 121 4 2053 2064 arXiv astro ph 0101139 Bibcode 2001AJ 121 2053A doi 10 1086 319965 S2CID 17994583 Torres Guillermo Latham David W Quinn Samuel N 2021 Long term Spectroscopic Survey of the Pleiades Cluster The Binary Population The Astrophysical Journal 921 2 117 arXiv 2107 10259 Bibcode 2021ApJ 921 117T doi 10 3847 1538 4357 ac1585 S2CID 236171384 Moraux E Bouvier J Stauffer J R Cuillandre J C 2003 Brown in the Pleiades cluster Clues to the substellar mass function Astronomy and Astrophysics 400 3 891 902 arXiv astro ph 0212571 Bibcode 2003A amp A 400 891M doi 10 1051 0004 6361 20021903 S2CID 17613925 Brown A G A et al Gaia collaboration August 2018 Gaia Data Release 2 Summary of the contents and survey properties Astronomy amp Astrophysics 616 A1 arXiv 1804 09365 Bibcode 2018A amp A 616A 1G doi 10 1051 0004 6361 201833051 Basri Gibor Marcy Geoffrey W Graham James R 1996 Lithium in Brown Dwarf Candidates The Mass and Age of the Faintest Pleiades Stars The Astrophysical Journal 458 600 609 Bibcode 1996ApJ 458 600B doi 10 1086 176842 Ushomirsky G Matzner C Brown E Bildsten L et al 1998 Light Element Depletion in Contracting Brown Dwarfs and Pre Main Sequence Stars Astrophysical Journal 497 1 253 266 arXiv astro ph 9711099 Bibcode 1998ApJ 497 253U doi 10 1086 305457 S2CID 14674869 Converse Joseph M amp Stahler Steven W 2010 The dynamical evolution of the Pleiades Monthly Notices of the Royal Astronomical Society 405 1 666 680 arXiv 1002 2229 Bibcode 2010MNRAS 405 666C doi 10 1111 j 1365 2966 2010 16505 x S2CID 54611261 Gibson Steven J Nordsieck Kenneth H 2003 The Pleiades Reflection Nebula II Simple Model Constraints on Dust Properties and Scattering Geometry Astrophysical Journal 589 1 362 377 Bibcode 2003ApJ 589 362G doi 10 1086 374590 ScienceDaily 2007 Planets Forming In Pleiades Star Cluster Astronomers Report Retrieved 2012 11 15 External links Edit Look up Pleiades in Wiktionary the free dictionary Wikimedia Commons has media related to Pleiades star cluster Wikiquote has quotations related to Pleiades The Pleiades on WikiSky DSS2 SDSS GALEX IRAS Hydrogen a X Ray Astrophoto Sky Map Articles and images The Pleiades M45 At the astro photography site of T Yoshida Photos and information on the Pleiades from the University of Calgary Information on the Pleiades from SEDS Information and images from the Anglo Australian Observatory NightSkyInfo com The Pleiades Maya Astronomy Doppler Imaging Results first Doppler image of a Pleiades solar type G dwarf HII314 Strassmeier amp Rice 2001 A amp A 377 264 Dark Atmospheres Photography deep nebulosity exposure Hurst John Lawrence Pete Crowther Paul M45 The Pleiades Deep SkyVideos Brady Haran The Pleiades M45 at Constellation Guide Warburg Institute Iconographic Database medieval and early modern images of the Pleiades Portals Astronomy Stars Outer space Retrieved from https en wikipedia org w index php title Pleiades amp oldid 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