Images by Date
Images by Category
Solar System
Stars
Exoplanets
White Dwarfs
Supernovas
Neutron Stars
Black Holes
Milky Way Galaxy
Normal Galaxies
Quasars
Galaxy Clusters
Cosmology/Deep Field
Miscellaneous
Images by Interest
Space Scoop for Kids
4K JPG
Multiwavelength
Sky Map
Constellations
Photo Blog
Top Rated Images
Image Handouts
Desktops
Fits Files
Visual descriptions
Image Tutorials
Photo Album Tutorial
False Color
Cosmic Distance
Look-Back Time
Scale & Distance
Angular Measurement
Images & Processing
AVM/Metadata
Image Use Policy
Web Shortcuts
Chandra Blog
RSS Feed
Chronicle
Email Newsletter
News & Noteworthy
Image Use Policy
Questions & Answers
Glossary of Terms
Download Guide
Get Adobe Reader
Abell 30: X-rays from a Reborn Planetary Nebula
Abell 30
Abell 30

  • This composite image shows a planetary nebula, Abell 30, located about 5,500 light years from Earth.

  • The large image and the inset show X-ray and optical data from Chandra, XMM-Newton, HST and KPNO.

  • A planetary nebula is formed in the late stage of the evolution of a sun-like star.

  • The evolution of A30 stalled and then started up again, so the planetary nebula was reborn, a special, rarely-seen phase of evolution.

These images of the planetary nebula Abell 30, (a.k.a. A30), show one of the clearest views ever obtained of a special phase of evolution for these objects. The inset image on the right is a close-up view of A30 showing X-ray data from NASA's Chandra X-ray Observatory in purple and Hubble Space Telescope (HST) data showing optical emission from oxygen ions in orange. On the left is a larger view showing optical and X-ray data from the Kitt Peak National Observatory and ESA's XMM-Newton, respectively. In this image the optical data show emission from oxygen (orange) and hydrogen (green and blue), and X-ray emission is colored purple.

A planetary nebula — so called because it looks like a planet when viewed with a small telescope — is formed in the late stage of the evolution of a sun-like star.

After having steadily produced energy for several billion years through the nuclear fusion of hydrogen into helium in its central region, or core, the star undergoes a series of energy crises related to the depletion of hydrogen and subsequent contraction of the core. These crises culminate in the star expanding a hundred-fold to become a red giant.

Eventually the outer envelope of the red giant is ejected and moves away from the star at a relatively sedate speed of less than 100,000 miles per hour. The star meanwhile is transformed from a cool giant into a hot, compact star that produces intense ultraviolet (UV) radiation and a fast wind of particles moving at about 6 million miles per hour. The interaction of the UV radiation and the fast wind with the ejected red giant envelope creates the planetary nebula, shown by the large spherical shell in the bigger image.

In rare cases, nuclear fusion reactions in the region surrounding the star's core heat the outer envelope of the star so much that it temporarily becomes a red giant again. The sequence of events — envelope ejection followed by a fast stellar wind — is repeated on a much faster scale than before, and a small-scale planetary nebula is created inside the original one. In a sense, the planetary nebula is reborn.

Chandra/optical close up image
Chandra X-ray & Hubble Optical Close-up of A30

The large nebula seen in the larger image has an observed age of about 12,500 years and was formed by the initial interaction of the fast and slow winds. The cloverleaf pattern of knots seen in both images, correspond to the recently ejected material. These knots were produced much more recently, as they have an observed age of about 850 years, based on observations of their expansion using HST.

The diffuse X-ray emission seen in the larger image and in the region around the central source in the inset is caused by interactions between wind from the star and the knots of the ejected material. The knots are heated and eroded by this interaction, producing X-ray emission. The cause of the point-like X-ray emission from the central star is unknown.

Studies of A30 and other planetary nebulas help improve our understanding of the evolution of sun-like stars as they near the end of their lifetime. The X-ray emission reveals how the material lost by the stars at different evolutionary stages interact with each another. These observations of A30, located about 5,500 light years away, provide a picture of the harsh environment that the solar system will evolve towards in several billion years, when the sun's strong stellar wind and energetic radiation will blast those planets that survived the previous, red giant phase of stellar evolution.

The structures seen in A30 originally inspired the idea of reborn planetary nebulas, and only three other examples of this phenomenon are known. A new study of A30, using the observatories mentioned above, has been reported by an international team of astronomers in the August 20th, 2012 issue of The Astrophysical Journal.

The first author of the paper reporting these results is Martín A. Guerrero of the Instituto de Astrofísica de Andalucía (IAA-CSIC) in Spain. The other authors are N. Ruiz, also from the IAA-CSIC, Spain; W.-R. Hamann, from the University of Potsdam, Germany; Y.-H. Chu, from the University of Illinois, Urbana, IL; H. Todt, from the University of Potsdam, Germany; D. Schönberner, from the Leibniz-Institut Für Astrophysik in Potsdam, Germany; L. Oskinova, from the University of Potsdam, Germany; R. Gruendl, from the University of Illinois, Urbana, IL; M. Steffen, from the Leibniz-Institut Für Astrophysik in Potsdam, Germany; W. Blair, from Johns Hopkins University in Baltimore, MD and J. Toalá from the IAA-CSIC, Spain.

NASA's Marshall Space Flight Center in Huntsville, Ala., manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory controls Chandra's science and flight operations from Cambridge, Mass.

Fast Facts for Abell 30:
Credit  Inset X-ray (NASA/CXC/IAA-CSIC/M.Guerrero et al); Inset Optical (NASA/STScI); Widefield X-ray (ESA/XMM-Newton); Widefield Optical (NSF/NOAO/KPNO)
Release Date  November 15, 2012
Scale  Inset is 37 arcsec across (1 light years), Widefield image is 3.5 arcmin across (5.6 light years)
Category  White Dwarfs & Planetary Nebulas
Coordinates (J2000)  RA 08h 46m 53.50s | Dec +17° 52´ 45.40"
Constellation  Cancer
Observation Date  30 Dec 2010
Observation Time  27 hours (1 day 3 hours)
Obs. ID  12385
Instrument  ACIS
Also Known As A30
References Guerrero, M.A., et al, 2012, ApJ, 755, 129; arXiv:1202:4463
Color Code  Inset: X-ray (Purple); Optical (Orange), Widefield: X-ray (Purple); Optical (Red, Green, Blue)
Optical
X-ray
Distance Estimate  About 5,500 light years
distance arrow
Visitor Comments (3)

Helps you get out of yourself and put everything in perspective
Also helps you see the shear wonder of all existence.
Thank you

Posted by Vince Parr on Monday, 11.7.16 @ 16:42pm


Good info for Science Olympiad.

Posted by U on Sunday, 02.23.14 @ 20:56pm


WOW. Great info on a great planetary nebula.

Posted by Will on Monday, 02.3.14 @ 15:44pm


Rate This Image

Rating: 3.8/5
(494 votes cast)
Download & Share

Desktops

1024x768 - 537.6 kb
1280x1024 - 736.2 kb
1680x1050 - 810.7 kb
More Information
For Kids: Abell 30
Blog: Abell 30
More Images
X-ray Image of Abell 30
Jpg, Tif
X-ray

More Images
Animation & Video
Tour of Abell 30
animation

Blowing Bubbles
Click for high-resolution animation

More Animations
Related Images
PNE Gallery
PNE Gallery
(10 Oct 12)
NGC 6543
NGC 6543
(30 Jul 08)
NGC 7027
NGC 7027
(13 Jun 01)

Related Information
Related Podcast
Top Rated Images
Brightest Cluster Galaxies

Data Sonification

Timelapses: Crab Nebula and Cassiopeia A




FaceBookTwitterYouTubeFlickr