Barred spiral galaxy explained

A barred spiral galaxy is a spiral galaxy with a central bar-shaped structure composed of stars.[1] Bars are found in about two thirds of all spiral galaxies in the local universe, and generally affect both the motions of stars and interstellar gas within spiral galaxies and can affect spiral arms as well.[2] [3] The Milky Way Galaxy, where the Solar System is located, is classified as a barred spiral galaxy.[4]

Edwin Hubble classified spiral galaxies of this type as "SB" (spiral, barred) in his Hubble sequence and arranged them into sub-categories based on how open the arms of the spiral are. SBa types feature tightly bound arms, while SBc types are at the other extreme and have loosely bound arms. SBb-type galaxies lie in between the two. SB0 is a barred lenticular galaxy. A new type, SBm, was subsequently created to describe somewhat irregular barred spirals, such as the Magellanic Clouds, which were once classified as irregular galaxies, but have since been found to contain barred spiral structures. Among other types in Hubble's classifications for the galaxies are the spiral galaxy, elliptical galaxy and irregular galaxy.

Although theoretical models of galaxy formation and evolution had not previously expected galaxies becoming stable enough to host bars very early in the universe's history, evidence has recently emerged of the existence of numerous spiral galaxies in the early universe.[5] [6] [7]

Bars

Barred galaxies are apparently predominant, with surveys showing that up to two-thirds of all spiral galaxies develop a bar.[8] The creation of the bar is generally thought to be the result of a density wave radiating from the center of the galaxy whose effects reshape the orbits of the inner stars. This effect builds over time to stars orbiting farther out, which creates a self-perpetuating bar structure.[9]

The bar structure is believed to act as a type of stellar nursery, channeling gas inwards from the spiral arms through orbital resonance, fueling star birth in the vicinity of its center.[10] This process is also thought to explain why many barred spiral galaxies have active galactic nuclei, such as that seen in the Southern Pinwheel Galaxy.

Bars are thought to be temporary phenomena in the lives of spiral galaxies; the bar structures decay over time, transforming galaxies from barred spirals to more "regular" spiral patterns. Past a certain size the accumulated mass of the bar compromises the stability of the overall bar structure. Simulations show that many bars likely experience a "buckling" event in which a disturbance in the orbital resonances of stars in the bar structure leads to an inward collapse in which the bar becomes thicker and shorter though the exact mechanism behind this buckling instability remains hotly debated.[11] Barred spiral galaxies with high mass accumulated in their center thus tend to have short, stubby bars.[12] Such buckling phenomena are significantly suppressed and delayed by the presence of a supermassive black hole in the galactic center but occur nonetheless.[13]

Since so many spiral galaxies have bar structures, it is likely that they are recurring phenomena in spiral galaxy development. The oscillating evolutionary cycle from spiral galaxy to barred spiral galaxy is thought to take on average about two billion years.[14]

Recent studies have confirmed the idea that bars are a sign of galaxies reaching full maturity as the "formative years" end. A 2008 investigation found that only 20 percent of the spiral galaxies in the distant past possessed bars, compared with about 65 percent of their local counterparts.[15]

Grades

The general classification is "SB" (spiral barred). The sub-categories are based on how open or tight the arms of the spiral are. SBa types feature tightly bound arms. SBc types are at the other extreme and have loosely bound arms. SBb galaxies lie in between. SBm describes somewhat irregular barred spirals. SB0 is a barred lenticular galaxy.

Examples

ExampleTypeImageInformation
NGC 2787SB0SB0 is a type of lenticular galaxy
NGC 4314SBa
NGC 4921SBab
Messier 95SBb
NGC 3953SBbc
NGC 1073SBc
Messier 108SBcd
NGC 2903SBd
NGC 5398SBdmSBdm can also be considered a typeof barred Magellanic spiral
NGC 55SBmSBm is a type of Magellanic spiral (Sm)

Other examples

NameImageTypeConstellation
M58SBcVirgo
M91SBbComa Berenices
M95SBbLeo
M109SBbUrsa Major
NGC 1300SBbcEridanus
NGC 7541SB(rs)bcpecPisces
NGC 1365SBcFornax
NGC 2217SBaCanis Major
Magellanic CloudsSBmDorado, Tucana
UGC 12158SBPegasus
NGC 1512[16] SB(r)abHorologium

See also

External links

Notes and References

  1. News: Barred spiral galaxy. ScienceDaily. 2018-09-17. en.
  2. Book: D. Mihalas . 1968 . Galactic Astronomy . . 978-0-7167-0326-6.
  3. Book: Timothy Ferris . 1998 . The Whole Shebang: A State-of-the-Universe(s) Report . . 978-0-6848-3861-8.
  4. astro-ph/0203110. Gerhard. Ortwin. Mass distribution in our Galaxy. Space Science Reviews. 2002. 100. 129. 10.1023/A:1015818111633 . 2002SSRv..100..129G. 42162871 .
  5. https://phys.org/news/2023-11-milky-way-like-galaxy-early-universe.html Milky Way-like galaxy found in the early universe
  6. Costantin . Luca . Pérez-González . Pablo G. . Guo . Yuchen . Buttitta . Chiara . Jogee . Shardha . Bagley . Micaela B. . Barro . Guillermo . Kartaltepe . Jeyhan S. . Koekemoer . Anton M. . Cabello . Cristina . Corsini . Enrico Maria . Méndez-Abreu . Jairo . de la Vega . Alexander . Iyer . Kartheik G. . Bisigello . Laura . 2023 . A Milky Way-like barred spiral galaxy at a redshift of 3 . Nature . en . 623 . 7987 . 499–501 . 10.1038/s41586-023-06636-x . 37938777 . 10651483 . 2311.04283 . 2023Natur.623..499C . 1476-4687.
  7. Guo . Yuchen . Jogee . Shardha . Finkelstein . Steven L. . Chen . Zilei . Wise . Eden . Bagley . Micaela B. . Barro . Guillermo . Wuyts . Stijn . Kocevski . Dale D. . Kartaltepe . Jeyhan S. . McGrath . Elizabeth J. . Ferguson . Henry C. . Mobasher . Bahram . Giavalisco . Mauro . Lucas . Ray A. . 2023-03-01 . First Look at z > 1 Bars in the Rest-frame Near-infrared with JWST Early CEERS Imaging . The Astrophysical Journal Letters . en . 945 . 1 . L10 . 10.3847/2041-8213/acacfb . 2210.08658 . 2023ApJ...945L..10G . 2041-8205 . free .
  8. P. B. Eskridge . J. A. Frogel . What is the True Fraction of Barred Spiral Galaxies? . Astrophysics and Space Science. 1999 . 269. 427–430 . 1999Ap&SS.269..427E . 10.1023/A:1017025820201. 189840251 .
  9. F. Bournaud . F. Combes . Gas accretion on spiral galaxies: Bar formation and renewal . Astronomy and Astrophysics . 2002 . 392 . 1 . 83–102 . 2002A&A...392...83B . 10.1051/0004-6361:20020920. astro-ph/0206273 . 17562844 .
  10. J. H. Knapen . D. Pérez-Ramírez . S. Laine . 2002 . Circumnuclear regions in barred spiral galaxies - II. Relations to host galaxies . Monthly Notices of the Royal Astronomical Society . 337 . 3 . 808–828 . astro-ph/0207258 . 2002MNRAS.337..808K . 10.1046/j.1365-8711.2002.05840.x . free . 10845683.
  11. Lokas . Ewa L. . 2019-09-06 . Anatomy of a buckling galactic bar . Astronomy & Astrophysics . 629 . A52 . 10.1051/0004-6361/201936056 . 1906.03916 . 2019A&A...629A..52L . 182953157 . 0004-6361.
  12. https://web.archive.org/web/20020512044348/http://www.govertschilling.nl/artikelen/archief/2002/0204/020401_st.htm Barred Spirals Come and Go
  13. Wheeler . Vance . Valluri . Monica . Silva . Leandro Beraldo e . Dattathri . Shashank . Debattista . Victor P. . 2023-11-16 . Early-growing Supermassive Black Holes Strengthen Bars and Boxy/Peanut Bulges . The Astrophysical Journal . en . 958 . 2 . 119 . 10.3847/1538-4357/ace962 . 2306.07424 . 2023ApJ...958..119W . 0004-637X . free .
  14. http://www.sciamdigital.com/index.cfm?fa=Products.ViewIssuePreview&ARTICLEID_CHAR=3BC08F0C-2B35-221B-67A9F2AE04AFC79A Ripples in a Galactic Pond
  15. Sheth. Kartik. Elmegreen. Debra Meloy. Elmegreen. Bruce G. . Capak . Peter . Abraham . Roberto G.. Athanassoula. E.. Ellis. Richard S. . Mobasher . Bahram . Salvato. Mara . Schinnerer. Eva. Scoville. Nicholas Z. . Spalsbury . Lori. Strubbe . Linda. Carollo . Marcella . Rich. Michael. West. Andrew A. . 3 . Evolution of the Bar Fraction in COSMOS: Quantifying the Assembly of the Hubble Sequence . The Astrophysical Journal . 675 . 2 . 2008 . 1141–1155 . 0004-637X . 10.1086/524980 . 0710.4552. 2008ApJ...675.1141S. 14841360.
  16. Web site: Galactic David and Goliath. www.spacetelescope.org. en-GB. 2017-09-22. live. https://web.archive.org/web/20170922083759/http://spacetelescope.org/news/heic1712/. 2017-09-22.