NGC 2467

NGC 2467
Emission nebula
NGC 2467 and surrounding area, from European Southern Observatory
Observation data: J2000 epoch
Right ascension07h 52m 24.22s[1]
Declination−26° 24′ 58.40″[1]
Distance4420 ly   (1355[1] pc)
ConstellationPuppis
DesignationsCr 164, Gum 9, Sh 2-311, ESO 493-25[2]
See also: Lists of nebulae

NGC 2467, nicknamed the "Skull and Crossbones Nebula",[3] is a star-forming region whose appearance has occasionally also been likened to that of a colorful mandrill. It includes areas where large clouds of hydrogen gas incubate new stars.[4] This region was one of the areas featured in the book Hubble's Universe: Greatest Discoveries and Latest Images by Terence Dickinson.[5][nb 1]

Discussion

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NGC 2467 had long been considered to be the nucleus of the Puppis I association. However, NGC 2467 does not represent a distinct open cluster;[6] rather, it represents a superimposition of several stellar groups along the same approximate line of sight that have distinctly different distances and distinctly different radial velocities.[7] One of these is a young and very distant group beyond Puppis OB2, while another, nearer group with later-type stars lies at a similar distance as Puppis OB1.[8]

The region is dominated by a massive young star, HD 64315 (annotated in Commons, below and left of center), of spectral type O6. Two stellar clusters also exist in the area, Haffner 19 (H19, annotated) and Haffner 18 (H18, annotated). H19 is a compact cluster containing a Strömgren sphere which is ionized by a hot B0 V-type star. H18 contains a very young star, FM3060a (annotated), that has just come into existence and still surrounded by its birth cocoon of gas. The age of H19 is estimated to be 2 Myr, while the age H18 is somewhat controversial, some considering it to be as young as only 1 Myr.[9] The field contains other early-type stars such as HD 64568 (annotated, upper right) whose relationship with the clusters is unclear.[10]

The H II region of NGC 2467 has been the target of various investigations to elucidate the process of star formation. Unresolved questions include understanding the degree to which the stars already formed in such regions, especially the massive O or B stars, can affect the future formation of stars in the region: Do these pre-existing stars trigger the formation of others?[9] One such investigation was conducted using the Spitzer Space Telescope, which discovered 45 young stellar objects (YSOs), or protostars, in the region during its "cold" mission, i.e. before its supply of liquid helium ran out.[9] The YSOs are mostly along the edge of the HII region.[9] The concentrated distribution of these objects spatially correlated with the ionization fronts provides evidence for triggered star formation. The newly forming ptotostars are concentrated in areas where the shock front driven in advance of the ionization front compresses the molecular gas.[9]

It has been estimated that H19, H18, and the S311 nebula (in which lies HD 64315) are about 6.4 kiloparsecs (21,000 light-years), 5.9 kpc (19,000 ly), and 6.3 kpc (21,000 ly) away, placing them in the Perseus Arm of the Milky Way.[10] A significant discrepancy has existed between the distances to these features estimated kinematically versus distances estimated photometrically.[11] Regardless of these discrepancies, H19 and H18 may be considered to be a binary cluster.[10]

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Footnotes

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  1. ^ An annotated image at Commons assists in understanding the following discussion.

References

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  1. ^ a b c Yadav, Ram Kesh; Pandey, A. K.; Sharma, Saurabh; Ojha, D. K.; Samal, M. R.; Mallick, K. K.; Jose, J.; Ogura, K.; Richichi, Andrea; Irawati, Puji; Kobayashi, N.; Eswaraiah, C. (2016). "A multiwavelength investigation of the H ii region S311: Young stellar population and star formation". Monthly Notices of the Royal Astronomical Society. 461 (3): 2502–2518. arXiv:1606.03741. Bibcode:2016MNRAS.461.2502Y. doi:10.1093/mnras/stw1356. S2CID 118561491.
  2. ^ "NGC 2467". SIMBAD. Centre de données astronomiques de Strasbourg. Retrieved 2020-07-17.
  3. ^ Jeff Barbour; Tammy Plotner (March 2006). What's Up 2006 - 365 Days of Skywatching. Lulu. p. 81. ISBN 978-1-4116-8287-0.
  4. ^ "A cosmic concoction in NGC 2467". Space Telescope. Retrieved February 28, 2013.
  5. ^ Stunning Gallery of Previously Unpublished Images - Universe Today
  6. ^ Lodén, L. O. (1966). "A study of NGC 2467 and the association Pup I". Arkiv för Astronomi. 4: 65–72. Bibcode:1966ArA.....4...65L.
  7. ^ Pişmiş, P.; Moreno, M. A. (1976). "Internal motions in H II regions. III. The nebular complex NGC 2467". Revista Mexicana de Astronomía y Astrofísica. 1: 373–380. Bibcode:1976RMxAA...1..373P.
  8. ^ Feinstein, A.; Vazquez, R. A. (1989). "New UBVRI photoelectric photometry in the field of the open cluster NGC 2467". Astronomy and Astrophysics Supplement Series. 77 (2): 321–326. Bibcode:1989A&AS...77..321F.
  9. ^ a b c d e Snider, K. D.; Hester, J.; Desch, S. J.; Healy, K. R.; Bally, J. (2009). "Spitzer Observations of the H II Region NGC 2467: An Analysis of Triggered Star Formation". The Astrophysical Journal. 700 (1): 506–522. arXiv:0711.1515. Bibcode:2009ApJ...700..506S. doi:10.1088/0004-637X/700/1/506. S2CID 16192861.
  10. ^ a b c Gamen, R. C.; Barbá, R.; Rubio, M.; Méndez, R. A.; Minniti, D. (2006). Deep Photometric Studies in the Third Quadrant: NGC 2467. Vol. 26. pp. 72–73. Bibcode:2006RMxAC..26...72G. ISBN 9789703228041. Retrieved 24 February 2013. {{cite book}}: |journal= ignored (help)
  11. ^ Fitzgerald, M. P.; Moffat, A. F. J. (1974). "Puppis clusters Haffner 19 and 18ab and the 15 kiloparsec arm". Astronomical Journal. 79: 873–883. Bibcode:1974AJ.....79..873F. doi:10.1086/111623.
  12. ^ "The Pirate of the Southern Skies". www.eso.org. Retrieved 25 October 2018.
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