Supercluster Explained

A supercluster is a large group of smaller galaxy clusters or galaxy groups;[1] they are among the largest known structures in the universe. The Milky Way is part of the Local Group galaxy group (which contains more than 54 galaxies), which in turn is part of the Virgo Supercluster, which is part of the Laniakea Supercluster, which is part of the Pisces–Cetus Supercluster Complex.[2] The large size and low density of superclusters means that they, unlike clusters, expand with the Hubble expansion. The number of superclusters in the observable universe is estimated to be 10 million.[3]

Existence

The existence of superclusters indicates that the galaxies in the Universe are not uniformly distributed; most of them are drawn together in groups and clusters, with groups containing up to some dozens of galaxies and clusters up to several thousand galaxies. Those groups and clusters and additional isolated galaxies in turn form even larger structures called superclusters.

Their existence was first postulated by George Abell in his 1958 Abell catalogue of galaxy clusters. He called them "second-order clusters", or clusters of clusters.[4]

Superclusters form massive structures of galaxies, called "filaments", "supercluster complexes", "walls" or "sheets", that may span between several hundred million light-years to 10 billion light-years, covering more than 5% of the observable universe. These are the largest structures known to date. Observations of superclusters can give information about the initial condition of the universe, when these superclusters were created. The directions of the rotational axes of galaxies within superclusters are studied by those who believe that they may give insight and information into the early formation process of galaxies in the history of the Universe.[5] Interspersed among superclusters are large voids of space where few galaxies exist. Superclusters are frequently subdivided into groups of clusters called galaxy groups and clusters.

Although superclusters are supposed to be the largest structures in the universe according to the Cosmological principle, larger structures have been observed in surveys, including the Sloan Great Wall.[6]

List of superclusters

Galaxy supercluster Data Notes
Einasto Supercluster
  • z = ~0.25 (3 billion light years)
  • Length = 360 million light years
  • Mass = 2.6 × 1016 solar masses
Discovered in 2023 by analyzing Sloan Digital Sky Survey images. Claimed to be the most massive galaxy supercluster discovered so far.[7] [8]
King Ghidorah Supercluster
  • z = 0.50-0.64
  • Mass = 1 × 1016 solar masses
The most massive galaxy supercluster discovered until 2023.[9]
Laniakea Supercluster
  • z = 0.000
  • Length = 153 Mpc (500 million light-years)
The Laniakea Supercluster is the supercluster that contains the Virgo Cluster, Local Group, and by extension on the latter, our galaxy; the Milky Way.
Virgo Supercluster
  • z= 0.000
  • Length = 33 Mpc (110 million light-years)
It contains the Local Group with our galaxy, the Milky Way. It also contains the Virgo Cluster near its center, and is sometimes called the Local Supercluster. It is thought to contain over 47,000 galaxies.

A 2014 study indicates that the Virgo Supercluster is only a lobe of an even greater supercluster, Laniakea.[10]

It is composed of two lobes, sometimes also referred to as superclusters, or sometimes the entire supercluster is referred to by these other two names
  • Hydra Supercluster
  • Centaurus Supercluster

In 2014, the newly announced Laniakea Supercluster subsumed the Hydra-Centaurus Supercluster, which became a component of the new supercluster.

Pavo–Indus SuperclusterIn 2014, the newly announced Laniakea Supercluster subsumed the Pavo-Indus Supercluster, which became a component of the new supercluster.
Southern SuperclusterIncludes Fornax Cluster (S373), Dorado and Eridanus clouds.[11]
Saraswati SuperclusterDistance = 4000 Million light years (1.2 Gpc)Length = 652 Million light-yearsThe Saraswati Supercluster consists of 43 massive galaxy clusters such as Abell 2361 and has a mass of about and is seen in the Pisces constellation

Nearby superclusters

Galaxy supercluster Data Notes
Perseus–Pisces Supercluster
Coma SuperclusterForms most of the CfA Homunculus, the center of the CfA2 Great Wall galaxy filament
Sculptor SuperclustersSCl 9
Hercules SuperclustersSCl 160
Leo SuperclusterSCl 93
Ophiuchus Supercluster
    • cz=8500–9000 km/s (centre)
  • 18 Mpc x 26 Mpc
Forming the far wall of the Ophiuchus Void, it may be connected in a filament, with the Pavo-Indus-Telescopium Supercluster and the Hercules Supercluster. This supercluster is centered on the cD cluster Ophiuchus Cluster, and has at least two more galaxy clusters, four more galaxy groups, several field galaxies, as members.[12]
Shapley Supercluster
  • z=0.046.(650 Mly away)
The second supercluster found, after the Local Supercluster.

Distant superclusters

Galaxy supercluster Data Notes
Pisces–Cetus Supercluster
Boötes SuperclusterSCl 138
Horologium–Reticulum Supercluster

z=0.063 (700 Mly)

Length = 550 Mly

Corona Borealis Supercluster

z=0.07[13]

Columba Supercluster
Aquarius Supercluster
Aquarius B Supercluster
Aquarius–Capricornus Supercluster
Aquarius–Cetus Supercluster
Bootes A Supercluster
Caelum Supercluster

z=0.126 (1.4 Gly)

Draco Supercluster
Draco–Ursa Major Supercluster
Fornax–Eridanus Supercluster
Grus Supercluster
Leo A Supercluster
Leo–Sextans Supercluster
Leo–Virgo SuperclusterSCl 107
Microscopium SuperclusterSCl 174
Pegasus–Pisces SuperclusterSCl 3
Perseus–Pisces SuperclusterSCl 40
Pisces–Aries Supercluster
Ursa Majoris Supercluster
Virgo-Coma SuperclusterSCl 111

Extremely distant superclusters

Galaxy supercluster Data Notes
Hyperion proto-superclusterz=2.45This supercluster at the time of its discovery in 2018 was the earliest and largest proto-supercluster found to date.[14]
z=1.27 Discovered in 1999[15] (as ClG J0848+4453, a name now used to describe the western cluster, with ClG J0849+4452 being the eastern one),[16] it contains at least two clusters RXJ 0848.9+4452 (z=1.26) and RXJ 0848.6+4453 (z=1.27) . At the time of discovery, it became the most distant known supercluster.[17] Additionally, seven smaller groups of galaxies are associated with the supercluster.[18]
SCL @ 1338+27 at z=1.1z=1.1

Length=70Mpc

A rich supercluster with several galaxy clusters was discovered around an unusual concentration of 23 QSOs at z=1.1 in 2001. The size of the complex of clusters may indicate a wall of galaxies exists there, instead of a single supercluster. The size discovered approaches the size of the CfA2 Great Wall filament. At the time of the discovery, it was the largest and most distant supercluster beyond z=0.5[19] [20]
SCL @ 1604+43 at z=0.9z=0.91This supercluster at the time of its discovery was the largest supercluster found so deep into space, in 2000. It consisted of two known rich clusters and one newly discovered cluster as a result of the study that discovered it. The then known clusters were Cl 1604+4304 (z=0.897) and Cl 1604+4321 (z=0.924), which then known to have 21 and 42 known galaxies respectively. The then newly discovered cluster was located at, [21]
North Ecliptic Pole Supercluster (NEP Supercluster, NEPSC) z=0.88
SCL @ 0018+16 at z=0.54 in SA26z=0.54This supercluster lies around radio galaxy 54W084C (z=0.544) and is composed of at least three large clusters, CL 0016+16 (z=0.5455), RX J0018.3+1618 (z=0.5506), RX J0018.8+1602 .[22]
MS 0302+17z=0.42

Length=6Mpc

This supercluster has at least three member clusters, the eastern cluster CL 0303+1706, southern cluster MS 0302+1659 and northern cluster MS 0302+1717.[23]

See also

References

External links

Notes and References

  1. Web site: Local Group . Cain . Fraser . 4 May 2009 . . 6 December 2015.
  2. Gibney . Elizabeth . 2014-09-03 . Earth's new address: 'Solar System, Milky Way, Laniakea' . Nature . en . 10.1038/nature.2014.15819 . 124323774 . 1476-4687.
  3. Web site: The Universe within 14 billion Light Years . Atlas of the Universe . 6 December 2015.
  4. Abell . George O. . 1958 . The distribution of rich clusters of galaxies. A catalogue of 2,712 rich clusters found on the National Geographic Society Palomar Observatory Sky Survey . . 3 . 211–288 . 1958ApJS....3..211A . 10.1086/190036.
  5. Hu, F. X. . etal . 2006 . Orientation of Galaxies in the Local Supercluster: A Review . . 302 . 1–4 . 43–59 . astro-ph/0508669 . 2006Ap&SS.302...43H . 10.1007/s10509-005-9006-7. 18837475 .
  6. Nurmi. P.. Heinamaki. P.. Martinez. V. J.. Einasto. J.. Enkvist. I.. Einasto. P.. Tago. E.. Saar. E.. Tempel. E.. 2011-05-09. The Sloan Great Wall. Morphology and galaxy content. The Astrophysical Journal. 736. 1. 51. en. 10.1088/0004-637X/736/1/51. 1105.1632. 2011ApJ...736...51E. 119215944.
  7. Web site: 2024-02-19 . Einasto Supercluster: the new heavyweight contender in the universe Tartu Ülikool . 2024-03-22 . ut.ee . en.
  8. Sankhyayan . Shishir . Bagchi . Joydeep . Tempel . Elmo . More . Surhud . Einasto . Maret . Dabhade . Pratik . Raychaudhury . Somak . Athreya . Ramana . Heinämäki . Pekka . 2023 . Identification of Superclusters and Their Properties in the Sloan Digital Sky Survey Using the WHL Cluster Catalog . The Astrophysical Journal . en . 958 . 1 . 62 . 10.3847/1538-4357/acfaeb . free . 2309.06251 . 2023ApJ...958...62S . 0004-637X.
  9. Shimawaka. Rhythm. Okabe. Nobuhiro. Shirasaki. Masat. Tanaka. Masayuki. 22 November 2022. King Ghidorah Supercluster: Mapping the light and dark matter in a new supercluster at z = 0.55 using the subaru hyper suprime-cam. Monthly Notices of the Royal Astronomical Society: Letters. 519. 1. L45–L50. subscription. 2023MNRAS.519L..45S. 10.1093/mnrasl/slac150. free . 2211.11970. 253761264. 1745-3933.
  10. Tully . R. Brent . Courtois . Helene . Hoffman . Yehuda . Pomarède . Daniel . Daniel Pomarède . 2 September 2014 . The Laniakea supercluster of galaxies . . 4 September 2014 . 513 . 71–73 . 1409.0880 . 2014Natur.513...71T . 10.1038/nature13674 . 25186900 . 205240232 . 7516.
  11. Book: Mitra, Shyamal . https://link.springer.com/chapter/10.1007/978-1-4613-9356-6_65 . The World of Galaxies . A Study of the Southern Supercluster . 1989 . Springer, New York, NY. . 426–427 . 10.1007/978-1-4613-9356-6_65 . 978-1-4613-9358-0 . 23 September 2020 . https://web.archive.org/web/20180609021849/https://link.springer.com/chapter/10.1007/978-1-4613-9356-6_65 . 9 June 2018.
  12. Hasegawa, T. . etal . 2000 . Large-scale structure of galaxies in the Ophiuchus region . . 316 . 2 . 326–344 . 2000MNRAS.316..326H . 10.1046/j.1365-8711.2000.03531.x. free .
  13. The dynamics of the Corona Borealis supercluster . Postman, M. . Geller, M. J. . Huchra, J. P. . . 95 . 1988 . 267–83 . 10.1086/114635 . 1988AJ.....95..267P.
  14. 1806.06073. The progeny of a Cosmic Titan: a massive multi-component proto-supercluster in formation at z=2.45 in VUDS. Cucciati. O.. Lemaux. B. C.. Zamorani. G.. Le Fevre. O.. Tasca. L. A. M.. Hathi. N. P.. Lee. K-G.. Bardelli. S.. Cassata. P.. Garilli. B.. Le Brun. V.. Maccagni. D.. Pentericci. L.. Thomas. R.. Vanzella. E.. Zucca. E.. Lubin. L. M.. Amorin. R.. Cassara'. L. P.. Cimatti. A.. Talia. M.. Vergani. D.. Koekemoer. A.. Pforr. J.. Salvato. M.. Astronomy & Astrophysics. 2018. 619. A49. 10.1051/0004-6361/201833655. 2018A&A...619A..49C. 119472428.
  15. Rosati, P. . etal . 1999 . An X-Ray-Selected Galaxy Cluster at z = 1.26 . . 118 . 1 . 76–85 . astro-ph/9903381 . 1999AJ....118...76R . 10.1086/300934. 2560006 .
  16. Web site: Lynx Supercluster . SIMBAD.
  17. Nakata, F. . etal . 2004 . Discovery of a large-scale clumpy structure of the Lynx supercluster at z∼1.27 . . 2004 . 29–33 . . 2004ogci.conf...29N . 10.1017/S1743921304000080 . 2024-07-29 . 0-521-84908-X. free .
  18. Ohta, K. . etal . 2003 . Optical Identification of the ASCA Lynx Deep Survey: An Association of Quasi-Stellar Objects and a Supercluster at z = 1.3? . . 598 . 1 . 210–215 . astro-ph/0308066 . 2003ApJ...598..210O . 10.1086/378690. 117171639 .
  19. Tanaka, I. . 2004 . Subaru Observation of a Supercluster of Galaxies and QSOS at Z = 1.1 . Studies of Galaxies in the Young Universe with New Generation Telescope, Proceedings of Japan-German Seminar, held in Sendai, Japan, July 24–28, 2001 . 61–64 . 2004sgyu.conf...61T.
  20. Tanaka, I. . Yamada, T. . Turner, E. L. . Suto, Y. . 2001 . Superclustering of Faint Galaxies in the Field of a QSO Concentration at z ~ 1.1 . . 547 . 2. 521–530 . astro-ph/0009229 . 2001ApJ...547..521T . 10.1086/318430. 119439816 .
  21. A Definitive Optical Detection of a Supercluster at z ≈ 0.91 . 2000 . Lubin, L. M. . etal . . 531 . 1 . L5–L8 . astro-ph/0001166 . 2000ApJ...531L...5L . 10.1086/312518 . 10673401. 14588174 .
  22. Superclustering at Redshift z = 0.54 . 1996 . Connolly, A. J. . etal . . 473 . 2 . L67–L70 . astro-ph/9610047 . 1996ApJ...473L..67C . 10.1086/310395. 17697662 .
  23. University of Hawaii, "The MS0302+17 Supercluster", Nick Kaiser. Retrieved 15 September 2009.