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NGC 2818

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NGC 2818
Emission nebula
Planetary nebula
Hubble Space Telescope image of NGC 2818
(red: nitrogen, green: hydrogen, blue: oxygen)
Observation data: J2000.0[1] epoch
Right ascension09h 16m 01.656s [1]
Declination−36° 37′ 38.76″ [1]
Distance10,400 [2] ly
Apparent dimensions (V)2' [2]
ConstellationPyxis
Physical characteristics
Radius3.25 [2] ly
DesignationsNGC 2818,[1] PLN 261+8.1[2] ESO 372-PN13
See also: Lists of nebulae

NGC 2818 is a planetary nebula located in the southern constellation Pyxis (The Compass). It consists largely of glowing gases from the star's outer layers ejected during the final stages of its life when it had run out of the fuel necessary to sustain its core fusion processes. The remnants of its core will remain as a white dwarf.[3] The mass of the nebula is estimated at about 0.6 solar masses, while the progenitor star was likely about 2.3 times the mass of the Sun.[4]

NGC 2818 presents a complex morphology, and overall has bipolar structure, making it a bipolar nebula. The two lobes are somewhat broken and irregular. There are also filamentary structures radiating from the center, and near the center of the nebula, several cometary knots.[4]

It is often cited as a member of the open cluster NGC 2818A framing it, however, radial velocity differences between the planetary nebula and open cluster suggest a chance alignment.[5][6] The case is an example of a superimposed pair, similar to NGC 2438 and M46.[7]

Partly because of their small total mass, open clusters have relatively poor gravitational cohesion. Consequently, open clusters tend to disperse after a relatively short time, typically some 10 million years, because of external gravitational influences amid other factors. Under exceptional conditions, open clusters can remain intact for up to 100 million years.

Theoretical models predict that planetary nebulae can form from main-sequence stars of between 8 and 1 solar masses, which puts their age at 40 million years and older. Although there are a few hundred known open clusters within that age range, a variety of reasons limit the chances of finding a member of an open cluster in a planetary nebula phase. One such reason is that the planetary nebula phase for more massive stars belonging to younger clusters is on the order of thousands of years - a blink of the eye in cosmic terms. Only one association has been established between open clusters and nearby nebulae, the extremely distant nebula PHR 1315-6555.[8]

References

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  1. ^ a b c d SIMBAD, NGC 2818 (accessed 1 March 2009)
  2. ^ a b c d ScientificBlogging.com, NGC 2818 - A Nebula Within a Cluster Inside A Compass Archived 2013-02-02 at archive.today, staff writer, 2009 January 15th 01:00 AM (accessed 1 March 2009)
  3. ^ "HubbleSite - NewsCenter - Hubble Snaps a Splendid Planetary Nebula (01/15/2009) - Release Images". hubblesite.org. Retrieved 13 October 2015.
  4. ^ a b Derlopa, S.; Akras, S.; Amram, P.; Boumis, P.; Chiotellis, A.; De Oliveira, C Mendes (2024). "Planetary Nebula NGC 2818: Revealing its complex 3D morphology". Monthly Notices of the Royal Astronomical Society. 530 (3): 3327–3341. arXiv:2405.00169. doi:10.1093/mnras/stae1013.
  5. ^ Mermilliod, J.-C., Clariá, J. J., Andersen, J., Piatti, A. E., Mayor, M. (2001). Red giants in open clusters. IX. NGC 2324, 2818, 3960 and 6259, A&A
  6. ^ Majaess D. J., Turner D., Lane D. (2007). In Search of Possible Associations between Planetary Nebulae and Open Clusters, PASP, 119, 1349
  7. ^ Kiss, L. L., Szabó, Gy. M., Balog, Z., Parker, Q. A., Frew, D. J. (2008). AAOmega radial velocities rule out current membership of the planetary nebula NGC 2438 in the open cluster M46, MNRAS
  8. ^ "First planetary nebula associated with an open cluster discovered". Deep Sky Observer's Companion – the online database. September 16, 2010. Retrieved 8 November 2014.
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