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Science Daily — Astronomers have discovered a chaotic scene unlike any witnessed before in a cosmic "train wreck" between giant galaxy clusters. NASA's Chandra X-ray Observatory and optical telescopes revealed a dark matter core that was mostly devoid of galaxies, which may pose problems for current theories of dark matter behavior.
"These results challenge our understanding of the way clusters merge," said Dr. Andisheh Mahdavi of the University of Victoria, British Columbia. "Or, they possibly make us even reexamine the nature of dark matter itself."There are three main components to galaxy clusters: individual galaxies composed of billions of stars, hot gas in between the galaxies, and dark matter, a mysterious substance that dominates the cluster mass and can be detected only through its gravitational effects. Optical telescopes can observe the starlight from the individual galaxies, and can infer the location of dark matter by its subtle light-bending effects on distant galaxies. X-ray telescopes like Chandra detect the multimillion-degree gas.A popular theory of dark matter predicts that dark matter and galaxies should stay together, even during a violent collision, as observed in the case of the so-called Bullet Cluster. However, when the Chandra data of the galaxy cluster system known as Abell 520 was mapped along with the optical data from the Canada-France-Hawaii Telescope and Subaru Telescope atop Mauna Kea, HI, a puzzling picture emerged. A dark matter core was found, which also contained hot gas but no bright galaxies. "It blew us away that it looks like the galaxies are removed from the densest core of dark matter," said Dr. Hendrik Hoekstra, also of University of Victoria. "This would be the first time we've seen such a thing and could be a huge test of our knowledge of how dark matter behaves."In addition to the dark matter core, a corresponding "light region" containing a group of galaxies with little or no dark matter was also detected. The dark matter appears to have separated from the galaxies."The observation of this group of galaxies that is almost devoid of dark matter flies in the face of our current understanding of the cosmos," said Dr. Arif Babul, University of Victoria. "Our standard model is that a bound group of galaxies like this should have a lot of dark matter. What does it mean that this one doesn't""In the Bullet Cluster, known as 1E 0657-56, the hot gas is slowed down during the collision but the galaxies and dark matter appear to continue on unimpeded. In Abell 520, it appears that the galaxies were unimpeded by the collision, as expected, while a significant amount of dark matter has remained in the middle of the cluster along with the hot gas.Mahdavi and his colleagues have two possible explanations for their findings, both of which are uncomfortable for prevailing theories. The first option is that the galaxies were separated from the dark matter through a complex set of gravitational "slingshots." This explanation is problematic because computer simulations have not been able to produce slingshots that are nearly powerful enough to cause such a separation.The second option is that dark matter is affected not only by gravity, but also by an as-yet-unknown interaction between dark matter particles. This exciting alternative would require new physics and could be difficult to reconcile with observations of other galaxies and galaxy clusters, such as the aforementioned Bullet Cluster.In order to confirm and fully untangle the evidence for the Abell 520 dark matter core, the researchers have secured time for new data from Chandra plus the Hubble Space Telescope. With the additional observations, the team hopes to resolve the mystery surrounding this system.These results are scheduled to appear in the October 20th issue of The Astrophysical Journal. Other members of the research team included David Balam (University of Victoria) and Peter Capak (California Institute of Technology).
Note: This story has been adapted from a news release issued by Chandra X-ray Center.
Fausto Intilla
2 commenti:
SUB: Search beyond Dark Matter
Your ref:The observation of this group of galaxies that is almost devoid of dark matter flies in the face of our current understanding of the cosmos,"
Comment:
1.0
NEW-BOOK:SEARCH BEYOND DARK MATTER-IMPORTANT NOTES.
VISION DEVELOPMENT SERIES IN PHASES COVER –
COSMOS YOGA SERIES-I 10^3 LY-Tamasoma Jyothirgamyam
BEYOND DARK MATTER BY VIDYARDHI NANDURI TXU 1-282-571
JUNE 2005 Copy rights USA - Contact Author:Vidyardhi Nanduri
2.0 Heart of Universe-BOOK New addition by Vidyardhi Nanduri
Dec 2006 -Copyright Application-USA
TO HEART OF THE UNIVERSE
SEARCH HEART: SET MIND and Conscious Planes
Search beyond Dark matter
Want to know beyond Blackhole-psychology
want to know Cosmos Expansion
want to know Cosmos-Dazzling Phenomena
A DIWALI Gift or Christmas Lights:
Search COSMOLOGY FROM THE HEART OF THE UNIVERSE
Set your scale at 10 log Years and Centre at 5 Logscale Light Years.
Milky way derives Energy from the Heart of The Universe-That is NATURE'S DIVINE
3.0 FUNCTION.
READ : Vision series-I and Vision seriesII.
The Dynamic Function is driven from the Heart-
See next Vision series III to follow-up.(Dynamic Universe)
Vidyardhi Nanduri
http://cosmologyvedas.blogspot.com/
The Tully Fisher law could mean what it says it means. The spreading infrared luminosity from the central cloud of hot gas in between the two clusters of Abell 520 could actually be causing the gravitational light bending. In the 1919 solar eclipse study, it could have been the hot spreading luminosity from the sun that was causing the light bending and not the yet-to-be-specified
property of the mass of the sun that was producing the warping of the nearby space. I have been trying for years to get someone to replicate my experiments so that somebody besides myself would begin to believe that spreading infrared radiation is gravitationally attractive. And now Mahdavi et al have found fairly clear cut evidence that supports this far-reaching but easy to demonstrate notion.
Peter Fred
Maybe its not the dark matter that is difficult to see, it's the light.
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