Rosette Nebula

Rosette Nebula
Emission nebula
H II region

The Rosette Nebula (H-Alpha + RGB)
Observation data: J2000.0 epoch
Right ascension 06h 33m 45s[1]
Declination +04° 59 54[1]
Distance 5,200[2] ly   (1,600 pc)
Apparent magnitude (V) 9.0
Apparent dimensions (V) 1.3 °
Constellation Monoceros
Physical characteristics
Radius 65 ly
Notable features Multipart nebula
Designations SH 2-275,[1] CTB 21,[1] Caldwell 49

The Rosette Nebula (also known as Caldwell 49) is a large spherical H II region (circular in appearance) located near one end of a giant molecular cloud in the Monoceros region of the Milky Way Galaxy. The open cluster NGC 2244 (Caldwell 50) is closely associated with the nebulosity, the stars of the cluster having been formed from the nebula's matter.

The complex has the following NGC designations:

The cluster and nebula lie at a distance of some 5,000 light-years from Earth[3]) and measure roughly 130 light years in diameter. The radiation from the young stars excites the atoms in the nebula, causing them to emit radiation themselves producing the emission nebula we see. The mass of the nebula is estimated to be around 10,000 solar masses.

A survey of the nebula with the Chandra X-ray Observatory has revealed the presence of numerous new-born stars inside optical Rosette Nebula and studded within a dense molecular cloud. Altogether, approximately 2500 young stars lie in this star-forming complex, including the massive O-type stars HD 46223 and HD 46150, which are primarily responsible for blowing the ionized bubble.[4][5] Most of the ongoing star-formation activity is occurring in the dense molecular cloud to the south east of the bubble.[6]

A diffuse X-ray glow is also seen between the stars in the bubble, which has been attributed to a super-hot plasma with temperatures ranging from 1 to 10 million K.[7] This is significantly hotter than the 10,000 K plasmas seen in HII regions, and is likely attributed to the shock-heated winds from the massive O-type stars.

Observing the Rosette Nebula

The cluster of stars is visible in binoculars and quite well seen in small telescopes while the nebula itself is more difficult to spot visually and requires a telescope with a low magnification. A dark site is a must to see it. Photographically the Rosette Nebula is easier to record and it is the only way to record the red color which is not seen visually.


See also

References

  1. 1 2 3 4 "SIMBAD Astronomical Database". Results for NGC 2237. Retrieved 2006-10-23.
  2. Phelps, Randy L.; Ybarra, Jason E. (2005). "A Parsec-Scale Outflow in the Rosette Molecular Cloud?". The Astrophysical Journal. 627 (2): 845–849. Bibcode:2005ApJ...627..845P. doi:10.1086/430431.
  3. 'Cambridge Deep Sky Companions - The Caldwell Objects' , S.J. O'Meara & P. Moore, Cambridge University Press, ISBN 0-521-82796-5 (2002)
  4. Kuhn, M. A.; et al. (2015). "The Spatial Structure of Young Stellar Clusters. II. Total Young Stellar Populations". Astrophysical Journal. 802 (1): 60. Bibcode:2015ApJ...802...60K. arXiv:1501.05300Freely accessible. doi:10.1088/0004-637X/802/1/60.
  5. Wang, J.; et al. (2008). "A CHANDRA STUDY OF THE ROSETTE STAR-FORMING COMPLEX. I. THE STELLAR POPULATION AND STRUCTURE OF THE YOUNG OPEN CLUSTER NGC 2244". Astrophysical Journal. 675 (1): 464–490. Bibcode:2008ApJ...675..464W. arXiv:0711.2024Freely accessible. doi:10.1086/526406.
  6. Ybarra, J. E.; et al. (2013). "THE PROGRESSION OF STAR FORMATION IN THE ROSETTE MOLECULAR CLOUD". Astrophysical Journal. 769 (2): 140. Bibcode:2013ApJ...769..140Y. arXiv:1303.1226Freely accessible. doi:10.1088/0004-637X/769/2/140.
  7. Townsley, L. K.; et al. (2003). "10 MK Gas in M17 and the Rosette Nebula: X-Ray Flows in Galactic H II Regions". Astrophysical Journal. 593 (2): 874–905. Bibcode:2003ApJ...593..874T. arXiv:astro-ph/0305133Freely accessible. doi:10.1086/376692.
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