Messier 32

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Messier 32
M32 Lanoue.png
Dwarf Elliptical Galaxy M32
Observation data (J2000 epoch)
Right ascension00h 42m 41.8s[1]
Declination+40° 51′ 55″[1]
Redshift-200 ± 6 km/s[1]
Distance2.49 ± 0.08 million light-years (763 ± 24 kpc)[2][3][4][a]
Apparent magnitude (V)8.08[5][6]
Apparent size (V)8′.7 × 6′.5[1]
Notable featuressatellite galaxy of the
Andromeda Galaxy
Other designations
M 32, NGC 221,[1] UGC 452,[1] PGC 2555,[1] Arp 168,[1] LEDA 2555
See also: Galaxy, List of galaxies

Messier 32 (also known as M32 and NGC 221) is a dwarf "early-type" galaxy located about 2.65 million light-years from Earth, appearing in the constellation Andromeda. M32 is a satellite galaxy of the Andromeda Galaxy (M31) and was discovered by Guillaume Le Gentil in 1749. M32 measures 6.5 ± 0.2 thousand light-years in diameter at the widest point.[7]

The galaxy is a prototype of the relatively rare, compact elliptical (cE) galaxy class. Half the stars concentrate within an effective radius of only 100 parsecs.[8][9] Densities in the central stellar cusp increase steeply, exceeding 3×107 M pc−3 at the smallest radii resolved by HST,[10] and the half-light radius of this central star cluster is around 6 parsec.[11] Like more ordinary elliptical galaxies, M32 contains mostly older faint red and yellow stars with practically no dust or gas and consequently no current star formation.[12] It does, however, show hints of star formation in the relatively recent past. [13]

In this image of the Andromeda Galaxy, Messier 32 is to the left of the center.


The structure and stellar content of M32 are difficult to explain by traditional galaxy formation models. Theoretical arguments[14] and some simulations suggest a scenario in which the strong tidal field of M31 can transform a spiral galaxy or a lenticular galaxy into a compact elliptical. As a small disk galaxy falls into the central parts of M31, much of its outer layers will be stripped away. The central bulge of the small galaxy is much less affected and retains its morphology. Gravitational tidal effects may also drive gas inward and trigger a star burst in the core of the small galaxy, resulting in the high density of M32 observed today.[15] There is evidence that M32 has a faint outer disk,[16] and as such is not a typical elliptical galaxy.

Newer simulations find that an off-centre impact by M32 around 800 million years ago explains the present-day warp in M31's disk.[17] However this feature only occurs during the first orbital passage, whereas it takes many orbits for tides to transform a normal dwarf into M32. The observed colours and stellar populations of M32's outskirts do not match the stellar halo of M31,[18] indicating that tidal losses from M32 are not their source. Taken together, these circumstances may suggest that M32 already began in its compact state, and has retained most of its own stars. At least one similar cE galaxy has been discovered in isolation, without any massive companion to thresh it.[19]

Another hypothesis is that M32 would be in fact the largest remnant of a former spiral galaxy, M32p, which was then the third largest member of the Local Group.[20] According to this simulation, M31 (Andromeda) and M32p merged about two billion years ago, which could explain both the unusual makeup of the current M31 stellar halo, and the structure and content of M32.[21]

Distance measurements[edit]

At least two techniques have been used to measure distances to M32. The infrared surface brightness fluctuations distance measurement technique estimates distances to spiral galaxies based on the graininess of the appearance of their bulges. The distance measured to M32 using this technique is 2.46 ± 0.09 million light-years (755 ± 28 kpc).[2] However, M32 is close enough that the tip of the red giant branch (TRGB) method may be used to estimate its distance. The estimated distance to M32 using this technique is 2.51 ± 0.13 million light-years (770 ± 40 kpc).[3][4] For several additional reasons, M32 is thought to be in the foreground of M31, rather than behind. Its stars and planetary nebulae do not appear obscured or reddened by foreground gas or dust.[22][23] Gravitational microlensing of M31 by a star in M32 was observed in one event.[24]

Black hole[edit]

M32 contains a supermassive black hole. Its mass has been estimated to lie between 1.5 and 5 million solar masses.[25][26][27][28][29][30] A centrally located faint radio and X-ray source (now named M32* in analogy to Sgr A*) is attributed to gas accretion onto the black hole.[31][32]

See also[edit]


  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Lua error in Module:Citation/CS1 at line 379: attempt to call method 'match' (a nil value).
  2. 2.0 2.1 Jensen, Joseph B.; Tonry, John L.; Barris, Brian J.; Thompson, Rodger I.; Liu, Michael C.; Rieke, Marcia J.; Ajhar, Edward A.; Blakeslee, John P. (2003). "Measuring Distances and Probing the Unresolved Stellar Populations of Galaxies Using Infrared Surface Brightness Fluctuations". Astrophysical Journal 583 (2): 712–726. arXiv:astro-ph/0210129. Bibcode 2003ApJ...583..712J. doi:10.1086/345430.
  3. 3.0 3.1 Karachentsev, I. D.; Karachentseva, V. E.; Hutchmeier, W. K.; Makarov, D. I. (2004). "A Catalog of Neighboring Galaxies". Astronomical Journal 127 (4): 2031–2068. Bibcode 2004AJ....127.2031K. doi:10.1086/382905.
  4. 4.0 4.1 Karachentsev, I. D.; Kashibadze, O. G. (2006). "Masses of the local group and of the M81 group estimated from distortions in the local velocity field". Astrophysics 49 (1): 3–18. Bibcode 2006Ap.....49....3K. doi:10.1007/s10511-006-0002-6.
  5. Lua error in Module:Citation/CS1 at line 379: attempt to call method 'match' (a nil value).
  6. Armando, Gil de Paz; Boissier; Madore; Seibert; Boselli et al. (2007). "The GALEX Ultraviolet Atlas of Nearby Galaxies". Astrophysical Journal Supplement 173 (2): 185–255. arXiv:astro-ph/0606440. Bibcode 2007ApJS..173..185G. doi:10.1086/516636.
  7. Diameter = distance × sin(diameter_angle) = 6.5 ± 0.2 thousand light-years. diameter
  8. Kent, S. M. (1987). "Surface photometry of six local group galaxies". Astronomical Journal 94: 306–314. Bibcode 1987AJ.....94..306K. doi:10.1086/114472.
  9. Mateo, M. L. (1998). "Dwarf Galaxies of the Local Group". Annual Review of Astronomy and Astrophysics 36: 435–506. arXiv:astro-ph/9810070. Bibcode 1998ARA&A..36..435M. doi:10.1146/annurev.astro.36.1.435.
  10. Lauer, T. R.; Faber, S. M.; Currie, D. G.; Ewald, S. P.; Groth, E. J.; Hester, J. J.; Holtzman, J. A.; Light, R. M. et al. (1992). "Planetary camera observations of the central parsec of M32". Astronomical Journal 104: 552–562. Bibcode 1992AJ....104..552L. doi:10.1086/116254.
  11. Graham, A.W. and Spitler, L.R., Quantifying the coexistence of massive black holes and dense nuclear star clusters
  12. Lua error in Module:Citation/CS1 at line 876: attempt to call method 'sub' (a nil value).
  13. Rudenko, Pavlo; Worthey, Guy; Mateo, Mario (2009). "Intermediate age clusters in the field containing M31 and M32 stars". The Astronomical Journal 138 (6): 1985–1989. Bibcode 2009AJ....138.1985R. doi:10.1088/0004-6256/138/6/1985.
  14. Faber, S. M. (1973). "Tidal Origin of Elliptical Galaxies of High Surface Brightness". Astrophysical Journal 179: 423–426. Bibcode 1973ApJ...179..423F. doi:10.1086/151881.
  15. Bekki, Kenji; Couch, Warrick J.; Drinkwater, Michael J.; Gregg, Michael D. (2001). "A New Formation Model for M32: A Threshed Early-Type Spiral Galaxy?". Astrophysical Journal Letters 557 (1): L39. arXiv:astro-ph/0107117. Bibcode 2001ApJ...557L..39B. doi:10.1086/323075.
  16. Graham, A. W. (2002). "Evidence for an Outer Disk in the Prototype Compact Elliptical Galaxy M32". Astrophysical Journal Letters 568 (1): L13. arXiv:astro-ph/0202307. Bibcode 2002ApJ...568L..13G. doi:10.1086/340274.
  17. Dierickx, M.; Blecha, L.; Loeb, A. (2014). "Signatures of the M31-M32 Galactic Collision". Astrophysical Journal 788: L38. arXiv:1405.3990. Bibcode 2014ApJ...788L..38D. doi:10.1088/2041-8205/788/2/L38.
  18. Choi, P. I.; Guhathakurta, P.; Johnston, K. V. (2002). "Tidal Interaction of M32 and NGC 205 with M31: Surface Photometry and Numerical Simulations". Astronomical Journal 124: 310–331. arXiv:astro-ph/0111465. Bibcode 2002AJ....124..310C. doi:10.1086/341041.
  19. Huxor, A. P.; Phillipps, S.; Price, J. (2013). "Discovery of an isolated compact elliptical galaxy in the field". Monthly Notices of the Royal Astronomical Society 430: 1956–1960. arXiv:1302.6520. Bibcode 2013MNRAS.430.1956H. doi:10.1093/mnras/stt014.
  20. Lua error in Module:Citation/CS1 at line 379: attempt to call method 'match' (a nil value).
  21. D’Souza, Richard; Bell, Eric F. (2018-07-23). "The Andromeda galaxy’s most important merger about 2 billion years ago as M32’s likely progenitor" (in En). Nature Astronomy. doi:10.1038/s41550-018-0533-x. ISSN 2397-3366.
  22. Ford, H. C.; Jacoby, G. H.; Jenner, D. C. (1978). "Planetary nebulae in local group galaxies. VI - an observational determination that M32 is in front of M31". Astrophysical Journal 223: 94–97. Bibcode 1978ApJ...223...94F. doi:10.1086/156239.
  23. van Dokkum, P. G.; Franx, M. (1995). "Dust in the Cores of Early-Type Galaxies". Astronomical Journal 110: 2027. arXiv:astro-ph/9507101. Bibcode 1995AJ....110.2027V. doi:10.1086/117667.
  24. Paulin-Henriksson, S.; Baillon, P.; Bouquet, A.; Carr, B. J.; Creze, M.; Evans, N. W.; Giraud-Heraud, Y.; Gould, A. et al. (2002). "A Candidate M31/M32 Intergalactic Microlensing Event". Astrophysical Journal Letters 576: L121-L124. arXiv:astro-ph/0206387. Bibcode 2002ApJ...576L.121P. doi:10.1086/343887.
  25. Tonry, J. L. (1984). "Evidence for a central mass concentration in M32". Astrophysical Journal Letters 283: L27. Bibcode 1984ApJ...283L..27T. doi:10.1086/184326.
  26. Bender, R.; Kormendy, J.; Dehnen, W. (1996). "Improved Evidence for a 3×106 M Black Hole in M32: Canada-France-Hawaii Telescope Spectroscopy with FWHM = 0.47" Resolution". Astrophysical Journal Letters 464: L123. Bibcode 1996ApJ...464L.123B. doi:10.1086/310098.
  27. Joseph, C. L.; Merritt, D.; Olling, R.; Valluri, M.; Bender, R.; Bower, G.; Danks, A.; Gull, T. et al. (2001). "The Nuclear Dynamics of M32. I. Data and Stellar Kinematics". Astrophysical Journal 550: 668–690. arXiv:astro-ph/0005530. Bibcode 2001ApJ...550..668J. doi:10.1086/319781.
  28. Verolme, E. K.; Cappellari, M.; Copin, Y.; van der Marel, R. P.; Bacon, R.; Bureau, M.; Davies, R. L.; Miller, B. M. et al. (2002). "A SAURON study of M32: measuring the intrinsic flattening and the central black hole mass". Monthly Notices of the Royal Astronomical Society 335: 517–525. arXiv:astro-ph/0201086. Bibcode 2002MNRAS.335..517V. doi:10.1111/j.1365-2966.2009.15832.x.
  29. Valluri, M.; Merritt, D.; Emsellem, E. (2004). "Difficulties with Recovering the Masses of Supermassive Black Holes from Stellar Kinematical Data". Astrophysical Journal 602 (1): 66–92. arXiv:astro-ph/0210379. Bibcode 2004ApJ...602...66V. doi:10.1086/380896.
  30. van den Bosch, R. C. E.; de Zeeuw, P. T. (2010). "Estimating black hole masses in triaxial galaxies". Monthly Notices of the Royal Astronomical Society 401: 1770–1780. arXiv:0910.0844. Bibcode 2010MNRAS.401.1770V. doi:10.1111/j.1365-2966.2009.15832.x.
  31. Ho, Luis C.; Terashima, Yuichi; Ulvestad, James S. (2003). "Detection of the "Active" Nucleus of M32". Astrophysical Journal 589 (2): 783–789. arXiv:astro-ph/0303060. Bibcode 2003ApJ...589..783H. doi:10.1086/374738.
  32. Yang, Yang; Li, Zhiyuan; Sjouwerman, Loránt O.; Wang, Q. Daniel; Gu, Qiusheng; Kraft, Ralph P.; Yuan, Feng (2015). "Detection of a Compact Nuclear Radio Source in the Local Group Elliptical Galaxy M32". Astrophysical Journal Letters 807 (1): L19. arXiv:1502.03231. Bibcode 2015ApJ...807L..19Y. doi:10.1088/2041-8205/807/1/L19.

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