Following on from the above thread which dates back a while
here is the latest scientific research into dark matter that has been discovered in superclusters in space.
I'm not sure how to post a pic here (sorry) so see the link provided.
(I hope it is okay to post the large quote from the site)
Follow the link at the end for more....
These images reveal the distribution of dark matter in the supercluster Abell 901/902, composed of hundreds of galaxies. The image in the center shows
the entire supercluster. Astronomers assembled this photo by combining a visible-light image of the supercluster taken with the MPG/ESO 2.2-meter
telescope in La Silla, Chile, with a dark matter map derived from observations with the NASA/ESA Hubble Space Telescope. The magenta-tinted clumps
represent a map of the dark matter in the cluster. Dark matter is an invisible form of matter that accounts for most of the Universe's mass. The
image shows that the supercluster galaxies lie within the clumps of dark matter.
For the first time astronomers are able to see indirect evidence of dark matter and how this invisible force impacts on the crowded and violent lives
of galaxies. University of British Columbia researcher Catherine Heymans has produced the highest resolution map of dark matter ever captured
Scientists believe that dark matter is the invisible web that houses galaxies. And as the universe evolves, the gravitational pull of this unseen
matter causes galaxies to collide and swirl into superclusters.
Heymans and the University of Nottingham’s Meghan Gray led an international team to test this theory that dark matter determines the location of
“For the first time we are clearly detecting irregular clumps of dark matter in a supercluster,” says Heymans, a postdoctoral fellow in the Dept.
of Astronomy and Physics.
“Previous studies were only able to detect fuzzy, circular clumps, but we’re able to resolve detailed shapes that match the distribution of
Using NASA’s Hubble Space Telescope, Heymans and her team viewed an area of sky approximately the size of the full moon. They mapped the invisible
dark matter scaffolding of the massive supercluster Abell 901/902 and the detailed structure of the individual galaxies embedded in it.
Abell 901/902 resides 2.6 billion light-years from Earth and measures more than 16 million light-years across.
“It is to the universe what New York is to America - a huge, fascinating but frightening place,” says Heymans.
“Dark matter leaves a signature in distant galaxies” explains study co-author Ludovic Van Waerbeke, an assistant professor in the Department of
Physics and Astronomy. “For example, a circular galaxy will become more distorted to resemble the shape of a banana if its light passes near a dense
region of dark matter.”
By observing this effect, astronomers can then infer the presence of dark matter. Heymans constructed a dark matter map by measuring the distorted
shapes of more than 60,000 faraway galaxies located behind the Abell 901/902 supercluster. To reach Earth, these galaxies’ light traveled through
the dark matter that surrounds the Abell 901/902 supercluster of galaxies and was bent by its massive gravitational field.
The Hubble study pinpointed four main areas in the supercluster where dark matter has pooled into dense clumps, totaling 10 trillion times the Sun’s
mass. These areas match the known location of hundreds of old galaxies that have experienced a violent history in their passage from the outskirts of
the supercluster into these dense regions.
Gray and Heymans will present their findings on Jan. 10 at the 211th meeting of the American Astronomical Society in Austin, Texas. The results are
also scheduled to appear in the Monthly Notices of the Royal Astronomical Society
[edit on 10-1-2008 by pmexplorer]