This composite of data from NASA's Chandra X-ray Observatory and
Hubble Space Telescope is a new look for NGC 6543, better known as the
Cat's Eye nebula. This famous object is a so-called planetary
nebula that represents a phase of stellar evolution that the Sun should
experience several billion years from now. When a star like the Sun
begins to run out of fuel, it becomes what is known as a red giant. In
this phase, a star sheds some of its outer layers, eventually leaving
behind a hot core that collapses to form a dense white dwarf star. A
fast wind emanating from the hot core rams into the ejected atmosphere,
pushes it outward, and creates the graceful filamentary structures seen
with optical telescopes.
Chandra's X-ray data (colored in blue) of NGC 6543 shows that its
central star is surrounded by a cloud of multi-million-degree gas. By
comparing where the X-rays lie in relation to the structures seen in
optical light by Hubble (red and purple), astronomers were able to
deduce that the chemical abundances in the region of hot gas were like
those in the wind from the central star and different from the outer
cooler material. In the case of the Cat's Eye, material shed by the
star is flying away at a speed of about 4 million miles per hour. The
star itself is expected to collapse to become a white dwarf star in a
few million years.
This gallery shows four planetary nebulas
from the first systematic survey of such objects in the solar
neighborhood made with NASA's Chandra X-ray Observatory. The planetary
nebulas shown here are NGC 6543, also known as the Cat's Eye,
NGC 7662, NGC 7009 and NGC 6826. In each case, X-ray emission from
Chandra is colored purple and optical emission from the Hubble Space
Telescope is colored red, green and blue.
In the first part of this survey, published in a new paper, twenty
one planetary nebulas within about 5000 light years of the Earth have
been observed. The paper also includes studies of fourteen other
planetary nebulas, within the same distance range, that Chandra had
already observed.
A planetary nebula represents a phase of stellar evolution
that the Sun should experience several billion years from now. When a
star like the Sun uses up all of the hydrogen in its core, it expands
into a red giant, with a radius that increases by tens to hundreds of
times. In this phase, a star sheds most of its outer layers, eventually
leaving behind a hot core that will soon contract to form a dense white
dwarf star. A fast wind emanating from the hot core rams into the
ejected atmosphere, pushes it outward, and creates the graceful,
shell-like filamentary structures seen with optical telescopes.
The diffuse X-ray emission seen in about 30% of the planetary nebulas
in the new Chandra survey, and all members of the gallery, is caused by
shock waves as the fast wind collides with the ejected atmosphere. The
new survey data reveal that the optical images
of most planetary nebulas with diffuse X-ray emission display compact
shells with sharp rims, surrounded by fainter halos. All of these
compact shells have observed ages that are less than about 5000 years,
which therefore likely represents the timescale for the strong shock
waves to occur.
About half of the planetary nebulas in the study show X-ray point
sources in the center, and all but one of these point sources show high
energy X-rays that may be caused by a companion star,
suggesting that a high frequency of central stars responsible for
ejecting planetary nebulas have companions. Future studies should help
clarify the role of double stars in determining the structure and
evolution of planetary nebulas.
These results were published in the August 2012 issue of The
Astronomical Journal. The first two authors are Joel Kastner and Rodolfo
Montez Jr. of the Rochester Institute of Technology in New York,
accompanied by 23 co-authors.
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.
Credits: X-ray: NASA/CXC/RIT/J.Kastner et al.; Optical: NASA/STScI
J.D. Harrington, 202-358-0321
Headquarters, Washington
j.d.harrington@nasa.gov
Janet Anderson, 256-544-0034
Marshall Space Flight Center, Huntsville, Ala.
janet.l.anderson@nasa.gov
Peter Edmonds, 617-571-7279
Chandra X-ray Center, Cambridge, Mass.
pedmonds@cfa.harvard.edu
NASA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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